Claims (371)
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescing engines and coalescence methods for generating 1 to 20 sets of vertical full-blade water gravity turbines (8M).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 21 to 40 sets of vertical-type all-bladed water gravity turbine (8M).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 41 to 60 sets of vertical-type all-bladed water gravity turbine (8M).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescing engines and coalescence methods for generating 61 to 80 sets of vertical all-blade water gravity turbine (8M).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a vertical all-blade water gravity turbine (8M) 81-100 power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a vertical all blade water gravity turbine (8M) 101-120 power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a vertical all blade water gravity turbine (8M) 121-140 power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a vertical all blade water gravity turbine (8M) 141-160 power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a vertical type all-blade water gravity turbine (8M) 161-180 power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a vertical all blade water gravity turbine (8M) 181 to 200 sets of power generation.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of vertical all-blade water gravity turbine (8M) driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating power generation of vertical type rotor blade water gravity turbine (8M) 21 to 40 sets driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 41-60 sets of vertical all-blade water gravity turbines (8M) driven by injection with water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating power from 61 to 80 sets of vertical rotor blades water gravity turbine (8M) driven by water (3E) Mach 1 to 3
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a power generation of a vertical all blade water gravity turbine (8M) 81-100 driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generation of a vertical all-blade water gravity turbine (8M) 101-120 set driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from a vertical all-blade water gravity turbine (8M) 121-140 set driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from a vertical all-blade water gravity turbine (8M) 141-160 set driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescing engine and coalescence method for generating a vertical all-blade water-gravity turbine (8M) 161-180 sets driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating power from a vertical type moving blade water gravity turbine (8M) 181 to 200 sets driven by water (3E) Mach 1-3.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of vertical all-blade water gravity turbines (8M) driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a power generation of a vertical type moving blade water gravity turbine (8M) 21 to 40 sets driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating 41-60 sets of vertical all-blade water gravity turbines (8M) driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescing engines and coalescence methods for generating power from 61 to 80 sets of vertical type moving blade water gravity turbine (8M) driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating a power generation of a vertical-type all-blade water gravity turbine (8M) 81-100 driven by water (3E) Mach 1 or more.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generation of a vertical all-blade water gravity turbine (8M) 101-120 set driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from a vertical all-blade water gravity turbine (8M) 121-140 set driven by water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from a vertical all-blade water gravity turbine (8M) 141-160 set driven by water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generation of a vertical all-blade water gravity turbine (8M) 161-180 driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generator of a vertical all-blade water gravity turbine (8M) 181 to 200 driven by injection with water (3E) Mach 1 or higher.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of vertical all-blade hydrogravity turbines (8M) driven by a counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from 21 to 40 sets of vertical rotor blades and gravity gravity turbines (8M) driven by a counter rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 41-60 sets of vertical moving blade water gravity turbine (8M) driven by counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating 61 to 80 sets of vertical rotor blades and gravity gravity turbines (8M) driven by counter-rotating drive and generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engine and coalescence method for generating 100-100 sets of vertical rotor blade water gravity turbine (8M) driven by counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generator 101 to 120 sets of vertical all-blade hydrogravity turbines (8M) driven by a counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating power from 121 to 140 sets of vertical all-blade water gravity turbines (8M) driven by a counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a power generation of a vertical all-blade hydrogravity turbine (8M) 141-160 driven by a counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a total of 161 to 180 sets of vertical rotor blade water gravity turbines (8M) driven by a counter-rotating drive or a generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Various energy storage cycle coalescence engines and coalescence methods for generating a total of 181 to 200 sets of vertical moving blade water gravity turbines (8M) driven by a counter-rotating drive or generator (1) on the horizontal axis (1h).
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 2 with a horizontal axis (1h) driven by injection with Mach 1 to 3 and a vertical all-blade water gravity turbine (8M) 1 to 20 sets driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by horizontal reversal drive (1h) driven by Mach 1 to 3 and vertical type moving blade water gravity turbine (8M) 21 to 40 sets driven by generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting and a vertical reversing blade water gravity turbine (8M) 41 to 60 sets driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by injection and a vertical all-blade hydrogravity turbine (8M) driven by a generator (1) 61-80 sets of power generation Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting, a reversing drive or generator (1) vertical all-blade water gravity turbine (8M) 81 to 100 sets of power generation Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting and a vertical rotating blade water gravity turbine (8M) 101 to 120 driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting and a vertical reversing blade water gravity turbine (8M) 121 to 140 set driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting and a vertical all-blade water gravity turbine (8M) 141 to 160 driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by a horizontal axis (1h) driven by jetting and a vertical all-blade water gravity turbine (8M) 161 to 180 driven by a generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1〜3で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 to 3 driven by horizontal reversal drive (1h) driven by Mach 1 to 3 and vertical type moving blade water gravity turbine (8M) 181 to 200 sets driven by generator (1) Energy conservation cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the energy to produce 1-20 sets of vertical all-blade water gravity turbine (8M) driven by counter-rotating or generator (1) driven by horizontal axis (1h) driven by injection Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reversing drive or generator (1) vertical all-blade water gravity turbine (8M) 21-40 sets of various energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reversing drive or generator (1) vertical full-blade water gravity turbine (8M) 41-60 sets of various energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the generator (1) vertical all-blade hydrogravity turbine (8M) 61-80 sets of energy to generate power Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reversing drive or generator (1) vertical all-blade water gravity turbine (8M) 81-100 various energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reverse reversal drive or generator (1) vertical all-blade water gravity turbine (8M) 101 to 120 sets of various energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the generator (1) vertical power blade water gravity turbine (8M) 121-140 sets of various energy to generate power Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reversing drive or generator (1) vertical full-blade water gravity turbine (8M) 141 to 160 sets of various energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the reversing drive or generator (1) vertical all blade water gravity turbine (8M) 161-180 energy Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした水(3E)マッハ1以上で噴射駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water (3E) Mach 1 or more, the horizontal axis (1h) driven to inject and drive the generator (1) vertical all-wing blade water gravity turbine (8M) 181 to 200 sets of various energies Storage cycle coalescence engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water Price (3E) Mach 1 or higher, which is the maximum price of the resource, and the vertical axis water-gravity turbine (8M) 1 driven by a counter-rotating drive or a generator (1) driven by a horizontal axis (1h) driven by injection acceleration at Mach 1 or higher ~ 20 energy storage cycle coalescence engine and coalescence method for generating 20 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 or more, the vertical axis is a horizontal reversal drive (1h) driven by acceleration with Mach 1, and a vertical all-blade water gravity turbine (8M) 21 driven by a generator (1). Various energy storage cycle coalescence engine and coalescence method for generating 40 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 or more, the vertical axis is a horizontal reversal drive (1h) driven by acceleration with Mach 1 or higher, and a vertical all-blade water gravity turbine (8M) 41 driven by a generator (1) Various energy storage cycle coalescence engines and coalescence methods for generating -60 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) with the maximum amount of resources (3E) Mach 1 or higher, horizontal axis (1h) driven to accelerate the injection, vertical-type full-blade water gravity turbine (8M) 61 driven by counter-rotating drive or generator (1) ˜80 sets of various energy storage cycle coalescing engine and coalescence method.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 or more, the vertical axis is a horizontal reversal drive (1h) driven by acceleration with Mach 1 and a vertical all-blade water gravity turbine (8M) 81 driven by a generator (1) ˜100 sets of various energy storage cycle coalescence engines and coalescence methods.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water Price (3E) with the largest amount of resources (3E) Mach 1 or more Vertically moving blade water gravity turbine (8M) 101 driven by counter-rotating drive or generator (1) driven by horizontal axis (1h) driven by injection acceleration at Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 120 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water Price (3E) with the largest amount of resources (3E) Mach 1 or more Vertically moving blade water gravity turbine (8M) 121 driven by counter-rotating drive or generator (1) driven by horizontal axis (1h) driven by injection acceleration at Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 140 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) with the maximum amount of resources (3E) Mach 1 or more Horizontally driven (1h) driven by acceleration and driven by a double reversal drive or generator (1) vertical moving blade water gravity turbine (8M) 141 Various energy storage cycle coalescence engines and coalescence methods for generating 160 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 or more, the vertical axis is a horizontal reversal drive (1h) driven by injection acceleration with Mach 1 or higher, and a vertical all blade hydrogravity turbine (8M) 161 driven by a generator (1) Various energy storage cycle coalescence engines and coalescence methods for generating 180 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1以上で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water Price (3E) Mach 1 or higher, which is the maximum price of the resource, and the vertical axis water-gravity turbine (8M) 181 driven by the counter-rotating drive and the generator (1) by the horizontal axis (1h) driven by acceleration by Mach 1 or more. Various energy storage cycle coalescence engine and coalescence method for generating 200 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)1〜20組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)21〜40組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer rotor blade group (60D) is configured by fitting the fixed outer blade (60E), the outer annular blade (60G), and the fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 21 to 40 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)41〜60組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 41 to 60 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)61〜80組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) 61 to 80 sets of various energy storage cycle coalescence engines and coalescence methods.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)81〜100組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) 81 to 100 sets of various energy storage cycle coalescence engines and coalescence methods.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)101〜120組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 101 to 120 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)121〜140組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 121 to 140 sets of power.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)141〜160組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) 141 to 160 sets of various energy storage cycle coalescence engines and coalescence methods.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)161〜180組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) 161-180 sets of various energy storage cycle coalescence engines and coalescence methods.
夫々耐摩耗超撥水鍍金(3a)とした、入口固定外翼(60E)+外側環状翼(60G)+出口固定外翼(60J)嵌合で円筒外側動翼群(60D)を構成し、入口固定内翼(60F)+内側環状翼(60H)+出口固定内翼(60K)嵌合で円筒内側動翼群(60C)を構成する6種類の動翼群を円筒環状組立(9A)とした資源価格0資源量最大の水(3E)マッハ1〜3で噴射加速駆動する横軸(1h)で二重反転駆動や発電機(1)駆動する竪型全動翼水重力タービン(8M)181〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
A cylindrical outer blade group (60D) is configured by fitting an inlet fixed outer blade (60E) + outer annular blade (60G) + outlet fixed outer blade (60J), each of which is a wear-resistant super water-repellent plating (3a), Six types of rotor blade groups (9A) comprising the inner cylindrical blade group (60C) by fitting the inlet fixed inner blade (60F) + inner annular blade (60H) + outlet fixed inner blade (60K) are Water price (3E) Mach 1 to 3 (Machine 1 to 3) Mach 1 to 3 Accelerate and drive the horizontal axis (1h) Double reversal drive and generator (1) driven vertical moving blade water gravity turbine (8M) Various energy storage cycle coalescence engines and coalescence methods for generating 181 to 200 sets of power.
外側軸装置(60B)と円筒環状組立(9A)を入口固定外翼(60E)環状嵌合組立固定で耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)の入口動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Inlet blade of the cylindrical outer blade group (60D) in which the outer shaft device (60B) and the cylindrical annular assembly (9A) are wear-resistant superhydrophobic plating (3a) by fixing the inlet fixed outer blade (60E) annular fitting assembly. Various energy storage cycle coalescence engine and coalescence method for generating power generation of 1 to 200 sets of vertical all blade hydrogravity turbine (8M) constituting the group.
内側軸装置(60A)と円筒環状組立(9A)を入口固定内翼(60F)環状嵌合組立固定で耐摩耗超撥水鍍金(3a)とした円筒内側動翼群(60C)の入口動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Inlet blade of the cylindrical inner blade group (60C) in which the inner shaft device (60A) and the cylindrical annular assembly (9A) are wear-resistant super water-repellent plating (3a) by fixing the inlet fixed inner blade (60F) annular fitting assembly. Various energy storage cycle coalescence engine and coalescence method for generating power generation of 1 to 200 sets of vertical all blade hydrogravity turbine (8M) constituting the group.
外側軸装置(60B)と円筒環状組立(9A)を外側環状翼(60G)環状嵌合組立で耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)の外側中間動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
The outer intermediate blade group of the cylindrical outer blade group (60D) in which the outer shaft device (60B) and the cylindrical annular assembly (9A) are made of an outer annular blade (60G) annular fitting assembly and wear-resistant super-water-repellent plating (3a). Various energy storage cycle coalescing engine and coalescence method for generating 1 to 200 sets of vertical all blade hydrogravity turbines (8M) constituting the engine.
内側軸装置(60A)と円筒環状組立(9A)を内側環状翼(60H)環状嵌合組立で耐摩耗超撥水鍍金(3a)とした円筒内側動翼群(60C)の内側中間動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Inner intermediate blade group of cylindrical inner blade group (60C) in which inner shaft device (60A) and cylindrical annular assembly (9A) are wear-resistant super-water-repellent plating (3a) by inner annular blade (60H) annular fitting assembly. Various energy storage cycle coalescing engine and coalescence method for generating 1 to 200 sets of vertical all blade hydrogravity turbines (8M) constituting the engine.
外側軸装置(60B)と円筒環状組立(9A)を外側環状翼(60G)環状嵌合組立で耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)の外側中間動翼群を2回以上構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
The outer intermediate blade group of the cylindrical outer blade group (60D) in which the outer shaft device (60B) and the cylindrical annular assembly (9A) are made of an outer annular blade (60G) annular fitting assembly and wear-resistant super-water-repellent plating (3a). The energy storage cycle coalescing engine and the coalescence method for generating 200 to 200 sets of vertical all-blade hydrogravity turbine (8M).
内側軸装置(60A)と円筒環状組立(9A)を内側環状翼(60H)環状嵌合組立で耐摩耗超撥水鍍金(3a)とした円筒内側動翼群(60C)の内側中間動翼群を2回以上構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Inner intermediate blade group of cylindrical inner blade group (60C) in which inner shaft device (60A) and cylindrical annular assembly (9A) are wear-resistant super-water-repellent plating (3a) by inner annular blade (60H) annular fitting assembly. The energy storage cycle coalescing engine and the coalescence method for generating 200 to 200 sets of vertical all-blade hydrogravity turbine (8M).
内側軸装置(60A)と円筒環状組立(9A)を出口固定内翼(60K)環状嵌合組立固定で耐摩耗超撥水鍍金(3a)とした円筒内側動翼群(60C)の出口動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Outlet blades of the cylindrical inner blade group (60C) in which the inner shaft device (60A) and the cylindrical annular assembly (9A) are made of an abrasion-fixed superhydrophobic plating (3a) by fixing the outlet fixed inner blade (60K) annular fitting assembly. Various energy storage cycle coalescence engine and coalescence method for generating power generation of 1 to 200 sets of vertical all blade hydrogravity turbine (8M) constituting the group.
外側軸装置(60B)と円筒環状組立(9A)を出口固定外翼(60J)環状嵌合組立固定で耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)の出口動翼群を構成する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
Outlet blades of the cylindrical outer blade group (60D) in which the outer shaft device (60B) and the cylindrical annular assembly (9A) are wear-resistant super water-repellent plating (3a) by fixing the outlet fixed outer blade (60J) to the annular fitting assembly. Various energy storage cycle coalescence engine and coalescence method for generating power generation of 1 to 200 sets of vertical all blade hydrogravity turbine (8M) constituting the group.
外側軸装置(60B)+耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)を横軸(1h)歯車で連結駆動することで次の外側軸装置(60B)+円筒外側動翼群(60D)回転方向を逆回転として共振や騒音を僅少にする竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
The next outer shaft device (60B) + the outer side of the cylinder is driven by connecting the outer shaft device (60B) + the cylindrical outer blade group (60D) made of the wear-resistant super-water-repellent plating (3a) with a horizontal shaft (1h) gear. Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 200 sets of vertical blade hydrogravity turbines (8M) that make the rotation direction of the rotor blade group (60D) reverse rotation and minimize resonance and noise.
外側軸装置(60B)+耐摩耗超撥水鍍金(3a)とした円筒外側動翼群(60D)を横軸(1h)歯車で連結駆動することで次の外側軸装置(60B)+円筒外側動翼群(60D)回転方向を逆回転として共振や騒音を僅少にして内側軸装置(60A)と二重反転駆動する竪型全動翼水重力タービン(8M)1〜200組発電にする各種エネルギ保存サイクル合体機関及び合体方法。
The next outer shaft device (60B) + the outer side of the cylinder is driven by connecting the outer shaft device (60B) + the cylindrical outer blade group (60D) made of the wear-resistant super-water-repellent plating (3a) with a horizontal shaft (1h) gear. Various types of power generation of a vertical-type full-blade water-gravity turbine (8M) 1 to 200 sets that are reversely rotated with the inner shaft device (60A) by rotating the rotating blade group (60D) in the reverse direction to minimize resonance and noise. Energy conservation cycle coalescence engine and coalescence method.
太陽光加熱器(21)を水面に浮力を設けて具備して、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
A solar heater (21) is provided with buoyancy on the water surface, and solar heated air is used as a vertical all-blade hydrogravity turbine (8M). ), And multiple energy storage cycle coalescing engines that make electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) by recovering heat with 1 to multistage compression heat recovery device (2C) for each compression. And coalescing method.
太陽光加熱器(21)を水面に浮力を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
A solar heater (21) is provided with buoyancy on the water surface, and a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west is provided. Bladed water gravity turbine (8M) Extremely inexpensive electricity-driven electric drive, 1 to multi-stage heat pump (1G) compresses several times with suction, and heat is recovered with 1 to multi-stage compression heat recovery unit (2C) for each compression , Various energy storage cycle coalescence engine and coalescence method to make electricity + liquid air cold heat + superheated steam heat supply equipment (3D).
太陽光加熱器(21)を水面に浮力を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G), and a device that controls the rotation of sunlight at a right angle in the vertical direction. Various types of compression by suction multiple times with a stage heat pump (1G) and heat recovery with 1 to multiple stage compression heat recovery units (2C) for each compression to make electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Energy conservation cycle coalescence engine and coalescence method.
太陽光加熱器(21)を水面に浮力を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、浮力利用により東西方向直角維持回転制御する装置として、太陽光を熱吸収管(4H)中心に直線照射内部空気(28a)温度を最高にし、竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G) as a device for controlling the rotation of sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy. The air (28a) temperature is maximized, and the vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive power generation electric drive, and is compressed by suction multiple times with a 1-multistage heat pump (1G). Various energy storage cycle coalescence engines and coalescence methods for recovering heat with a stage compression heat recovery device (2C) to make electricity + liquid air cold heat + superheated steam temperature supply equipment (3D).
太陽光加熱器(21)を水面に浮力を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、浮力利用により東西方向直角維持回転制御する装置として、太陽光を熱吸収管(4H)中心に直線照射内部空気(28a)温度を最高にし、外部空気(28a)も加熱夫々の空気路(28A)高温度選択吸入として、竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with buoyancy on the water surface, and includes a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west, and includes a gear device (4d) and a roller (4e). ) As a cylindrical rotating part (77G) as a device for controlling the rotation of sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east-west direction by using buoyancy. The maximum temperature of the air (28a), the external air (28a) is also heated, each air passage (28A) as a high temperature selective suction, the vertical all blade water gravity turbine (8M) of extremely inexpensive power generation electric drive, Compressed multiple times with a multi-stage heat pump (1G), and recovers heat with a multi-stage compression heat recovery unit (2C) for each compression, resulting in electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Various energy storage cycle unit And coalescence method.
太陽光加熱器(21)を平地に円形鉄道を設けて具備して、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
A solar heater (21) is provided on a flat ground with a circular railway, and solar heating air is supplied to a vertical multi-blade hydrogravity turbine (8M), which is an extremely inexpensive power generation electric drive 1 to multi-stage heat pump ( Combined with various energy storage cycles, compressed by suction multiple times in 1G) and recovered in heat by 1 to multiple-stage compression heat recovery unit (2C) for each compression to make electricity + liquid air cold heat + superheated steam temperature supply facility (3D) Organization and coalescence method.
太陽光加熱器(21)を平地に円形鉄道を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
A solar heater (21) is provided on a flat ground with a circular railroad, and a rotation support part (4f) that controls rotation of the sunlight at a right angle from east to west is provided. Rotating blade water gravity turbine (8M) Compressed by suction multiple times with 1 to multi-stage heat pump (1G) of extremely inexpensive power generation electric drive, and recovers heat with 1 to multi-stage compression heat recovery unit (2C) for each compression Various energy storage cycle coalescence engines and coalescence methods that make electricity + liquid air cold heat + superheated steam temperature supply equipment (3D).
太陽光加熱器(21)を平地に円形鉄道を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、太陽光加熱空気を竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e), as a cylindrical rotating part (77G), it is a device that controls the rotation of sunlight at a right angle in the vertical direction, and the solar heating air is used as a vertical all-blade hydrogravity turbine (8M). Compressed multiple times with a multi-stage heat pump (1G), and recovers heat with a multi-stage compression heat recovery unit (2C) for each compression, resulting in electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) Various energy storage cycle coalescence engines and coalescence methods.
太陽光加熱器(21)を平地に円形鉄道を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、円形鉄道利用により東西方向直角維持回転制御する装置として、太陽光を熱吸収管(4H)中心に直線照射内部空気(28a)温度を最高にし、竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e) is used as a cylindrical rotating part (77G) as a device for controlling and rotating sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east and west direction by using a circular railway, sunlight is linearly centered on the heat absorption tube (4H). Irradiated internal air (28a) temperature is maximized, vertical full-blade water gravity turbine (8M) is extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), compressed multiple times, 1 for each compression ~ Various energy storage cycle coalescence engine and coalescence method by recovering heat with multistage compression heat recovery device (2C) to make electricity + liquid air cold heat + superheated steam temperature supply facility (3D).
太陽光加熱器(21)を平地に円形鉄道を設けて具備して、太陽光を東から西に直角維持回転制御する回転支持部(4f)等を具備し、歯車装置(4d)やローラー(4e)により円筒回転部(77G)として、太陽光を上下方向直角維持回転制御する装置とし、円形鉄道利用により東西方向直角維持回転制御する装置として、太陽光を熱吸収管(4H)中心に直線照射内部空気(28a)温度を最高にし、外部空気(28a)も加熱夫々の空気路(28A)高温度選択吸入として、竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、1〜複数段熱ポンプ(1G)で吸入複数回圧縮し、圧縮毎に1〜複数段圧縮熱回収器(2C)で熱回収して、電気+液体空気冷熱+過熱蒸気温熱供給設備3Dにする電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)にする各種エネルギ保存サイクル合体機関及び合体方法。
The solar heater (21) is provided with a circular railroad on a flat ground, and includes a rotation support portion (4f) for controlling rotation of the sunlight at a right angle from east to west, and a gear device (4d) and a roller ( 4e) is used as a cylindrical rotating part (77G) as a device for controlling and rotating sunlight at a right angle in the vertical direction, and as a device for controlling rotation at a right angle in the east and west direction by using a circular railway, sunlight is linearly centered on the heat absorption tube (4H). Irradiation internal air (28a) temperature is maximized, external air (28a) is also heated in each air passage (28A) as a high temperature selective suction, vertical all blade hydrogravity turbine (8M) of extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), compressed multiple times by suction, 1 to multi-stage compression heat recovery unit (2C) for each compression, heat recovered, electricity + liquid air cold heat + superheated steam temperature supply equipment 3D Electricity + liquid air cooling + superheated steam Various energy conservation cycle combined institutions and coalescence how to heat supply facilities (3D).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、海底のメタンハイドレートに過熱蒸気温熱注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam heat injection methane is injected into the methane hydrate on the sea floor Various energy storage cycle coalescence engines and coalescence methods to be recovered.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、海底のメタンハイドレートに過熱蒸気温熱注入メタンを液体窒素(5L)冷却液体メタンで回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam heat injection methane is injected into the methane hydrate on the sea floor Various energy storage cycle coalescence engine and coalescence method for recovering with liquid nitrogen (5L) cooled liquid methane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、永久凍土地下のメタンハイドレートに過熱蒸気温熱注入メタンを回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically moving blade hydrogravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely inexpensive power generation electricity production, superheated steam temperature heat injection into methane hydrate under permafrost land Various energy storage cycle coalescence engines and coalescence methods for recovering methane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、永久凍土地下のメタンハイドレートに過熱蒸気温熱注入メタンを液体窒素(5L)冷却液体メタンで回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low cost electricity production, superheated steam temperature heat injection into methane hydrate under permafrost land Various energy storage cycle coalescence engine and coalescence method for recovering methane with liquid nitrogen (5L) cooled liquid methane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、永久凍土地下のメタンハイドレートに過熱蒸気温熱注入囲い設けてメタン回収や牧草地放牧事業等にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low cost electricity production, superheated steam temperature heat injection into methane hydrate under permafrost land Various energy conservation cycle coalescence engines and coalescence methods for methane recovery, pasture grazing projects, etc.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、オイルサンド地帯に過熱蒸気注入囲い設けて回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, and recovered by installing superheated steam injection enclosure in oil sand zone Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、オイルシェール地帯に過熱蒸気注入囲い設けて回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, and recovered by installing superheated steam injection enclosure in oil shale area Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、老朽石油採取地帯に過熱蒸気注入囲い設けて回収する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, and recovered by installing a superheated steam injection enclosure in an old oil extraction zone Various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より受給して、食品製造業等では過熱蒸気安価受給して安価食料品大量生産にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low cost electric power production, food manufacturing industry etc. received superheated steam cheaply and cheap Various energy conservation cycle coalescence engines and coalescence methods for mass production of food products.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価過熱蒸気を受給して、農業用や工業用や産業用や鉱業用に使用して温熱利用全盛にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap superheated steam, for agricultural, industrial or industrial use Various energy conservation cycle coalescence engines and coalescence methods that are used in the mining industry and make the best use of thermal energy.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して自動車駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving the automobile by driving the theoretical expansion engine (3P) as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して自動車駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods that drive a theoretical expansion engine (3P) as an ultra-high pressure fuel combustion to drive an automobile.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して自動車駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving the automobile by driving the theoretical expansion engine (3P) as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air Theoretical combustion chamber (4Y) of ultra-high pressure fuel combustion of 2/60000 of the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and storage battery drive wheel (4J) rotation theoretical expansion engine automobile ( 4K) Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Theoretical expansion engine (3P) drive generator (1) Drive storage battery (1A) as super-high pressure fuel combustion and storage battery drive wheel (4J) Rotation theoretical expansion engine automobile (4K) various energy storage cycle coalescence Organization and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy to be stored in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and drive the storage battery drive wheel (4J) rotation theoretical expansion engine automobile (4K) as ultrahigh pressure fuel combustion Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転と普通車輪回転が可能な理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air The theoretical combustion chamber (4Y) of 2/60000 of this is stored in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) as ultrahigh pressure fuel combustion and the storage battery drive wheel (4J) rotation and normal wheel rotation Various energy storage cycle coalescence engine and coalescence method to drive a possible theoretical expansion engine vehicle (4K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転と普通車輪回転が可能な理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Theoretical expansion engine vehicle (4K) capable of rotating the storage battery drive wheel (4J) and rotating the normal wheel by storing in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) as ultrahigh pressure fuel combustion Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動発電機(1)駆動蓄電池(1A)に蓄電して蓄電池駆動車輪(4J)回転と普通車輪回転が可能な理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Theoretical expansion engine vehicle capable of storing in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and rotating the storage battery drive wheel (4J) and normal wheel as super high pressure fuel combustion (4K) Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して理論膨張機関自動車(4K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and the theoretical expansion engine automobile (4K) as ultrahigh pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and the screw (7C) rotating ship as ultra high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) and driving a screw (7C) as a super high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) and driving a screw (7C) rotating ship as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving the theoretical expansion engine (3P) multiple times and the screw (7C) multiple rotation ship as ultra high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) multiple revolutions as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods for theoretical combustion chamber (4Y) ultrahigh pressure fuel combustion in which a plurality of theoretical expansion engines (3P) are driven and a screw (7C) is driven in multiple rotations.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体スクリュー船舶(39H)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple drive, screw (7C) multi-rotation oxygen coalescence screw ship (39H) driven various energy storage cycle coalescence engine and coalescence Method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体スクリュー船舶(39H)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods in which a plurality of theoretical expansion engines (3P) are driven as ultra-high pressure fuel combustion and a screw (7C) multi-rotation oxygen coalescence screw ship (39H) is driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体スクリュー船舶(39H)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which a theoretical expansion engine (3P) is driven multiple times as a theoretical combustion chamber (4Y) ultra-high pressure fuel combustion and a screw (7C) multi-rotation oxygen coalescence screw ship (39H) is driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して酸素合体スクリュー船舶(39H)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air The energy combustion cycle coalescence engine and the coalescence method of driving the theoretical expansion engine (3P) and the oxygen coalescence screw ship (39H) as the theoretical combustion chamber (4Y) ultrahigh pressure fuel combustion of 21/60000.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high-pressure fuel combustion Theoretical expansion engine (3P) is driven to drive the screw (7C) Rotating oxygen coalescence water injection part (88K) And coalescing method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as super-high pressure fuel combustion and driving a screw (7C) rotary oxygen coalescence water injection part (88K) injection propulsion ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してスクリュー(7C)回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engine and coalescence method for driving theoretical expansion engine (3P) as theoretical combustion chamber (4Y) ultra high pressure fuel combustion and driving screw (7C) rotating oxygen coalescence water injection part (88K) injection propulsion ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high-pressure fuel combustion as a plurality of theoretical expansion engines (3P), screw (7C), multi-rotation oxygen combined water injection unit (88K), and various types of energy conservation cycles Merger engine and merger method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) as super-high pressure fuel combustion and driving a screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as a theoretical combustion chamber (4Y) ultrahigh pressure fuel combustion and driving a screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進酸素合体スクリュー噴射船舶(39K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple drive and screw (7C) multi-rotation oxygen combined water injection part (88K) injection propulsion oxygen combined screw injection ship (39K ) Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進酸素合体スクリュー噴射船舶(39K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines driven by multiple theoretical expansion engines (3P) as super-high pressure fuel combustion and driven by screws (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence screw injection vessel (39K) And coalescing method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してスクリュー(7C)複数回転酸素合体水噴射部(88K)噴射推進酸素合体スクリュー噴射船舶(39K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion as a plurality of theoretical expansion engines (3P) drive, screw (7C) multi-rotation oxygen combined water injection part (88K) injection propulsion oxygen combined screw injection ship (39K) various energy storage Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動して酸素合体水噴射部(88K)噴射推進酸素合体スクリュー噴射船舶(39K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) drive and oxygen coalescence water injection part (88K) Injection propulsion oxygen coalescence screw injection ship (39K) Merger engine and merger method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion vessel driven by multiple ultrahigh pressure fuel combustion injection propulsion Various energy storage cycle coalescence engines and coalescence methods for driving ships.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)超高圧複数燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship driven by super high pressure multiple fuel combustion injection propulsion Various energy storage cycle coalescence engine and coalescence method for driving ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)超高圧複数燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Streamlined Theoretical Combustion Chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship with super high pressure multiple fuel combustion injection propulsion Various energy storage cycle coalescence engine and coalescence method for driving ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship equipped with multiple ultra high pressure fuel combustion injection propulsion including air suction flow path and various energy storage cycle coalescence engine and coalescence method .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence water injection part (88K) injection propulsion ship with a plurality of ultra-high pressure fuel combustion injection propulsion including a chamber (4Y) air suction channel.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進船舶駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection part (88K) injection propulsion ship equipped with a streamlined theoretical combustion chamber (4Y) air suction passage including a plurality of super high pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進酸素合体噴射船舶(39J)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 2/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen Combined Water Injection Unit (88K) Injection Propulsion Oxygen Combined Injection Ship (39J) with Multiple Ultra High Pressure Fuel Combustion Injection Propulsion including Air Suction Channel Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進酸素合体噴射船舶(39J)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) including the chamber (4Y) air suction flow path and including a plurality of ultrahigh pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体水噴射部(88K)噴射推進酸素合体噴射船舶(39J)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Streamline type theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) equipped with multiple ultrahigh pressure fuel combustion injection propulsion including air suction flow path and various energy storage cycle coalescence engine and coalescence method .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)複数とした酸素合体水噴射部(88K)噴射推進酸素合体噴射船舶(39J)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air Of various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence water injection section (88K) injection propulsion oxygen coalescence injection ship (39J).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Various Energy Conservation Cycle Combined Engine and Combined Method for Making an Oxygen Combined Air Injection Unit (88A) Injection Propulsion Plane with Plural Ultra High Pressure Fuel Combustion Injection Propulsion
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Chamber (4Y) Oxygen coalescence air injection section (88A) with multiple ultra-high pressure fuel combustion injection propulsion and various energy storage cycle coalescence engines and coalescence method for injection propulsion airplane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Streamlined theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for making oxygen coalesced air injection part (88A) injection propulsion airplane with multiple ultrahigh pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen coalesced air injection part (88A) with multiple ultrahigh pressure fuel combustion injection propulsion including air suction flow path and various energy storage cycle coalescing engine and coalescence method .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Various energy storage cycle coalescence engines and coalescence methods for making an oxygen coalesced air injection part (88A) injection propulsion airplane with a chamber (4Y) air suction flow path and a plurality of super high pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進飛行機にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy conservation cycle coalescence engines and coalescence methods for making an oxygen coalescence air injection part (88A) injection propulsion airplane with a streamlined theoretical combustion chamber (4Y) air suction flow path including a plurality of ultrahigh pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進酸素合体噴射飛行機(39L)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 2/60000 Streamlined theoretical combustion chamber (4Y) Oxygen coalescence air injection unit (88A) injection propulsion oxygen coalescence injection plane (39L) with multiple ultrahigh pressure fuel combustion injection propulsion including air suction passage Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進酸素合体噴射飛行機(39L)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamline theoretical combustion Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection section (88A) injection propulsion oxygen coalescence injection plane (39L) that includes a chamber (4Y) air suction passage and includes a plurality of ultrahigh pressure fuel combustion injection propulsion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、流線型理論燃焼室(4Y)空気吸引流路具備含む複数超高圧燃料燃焼噴射推進とした酸素合体空気噴射部(88A)噴射推進酸素合体噴射飛行機(39L)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Streamline type theoretical combustion chamber (4Y) Oxygen coalescence air injection unit (88A) injection propulsion oxygen coalescence injection airplane (39L) driven by multiple ultrahigh pressure fuel combustion injection propulsion including air suction flow path and various energy storage cycle coalescence engine and coalescence method .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする流線型理論燃焼室(4Y)複数とした酸素合体空気噴射部(88A)噴射推進酸素合体噴射飛行機(39L)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Streamline type theoretical combustion chamber (4Y) A plurality of oxygen coalescence air injection section (88A) injection propulsion oxygen coalescence injection plane (39L) driven various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してプロペラ(7A)回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air The energy combustion cycle coalescence engine and the coalescence method of driving the theoretical expansion engine (3P) and the propeller (7A) rotating airplane as the theoretical combustion chamber (4Y) ultrahigh pressure fuel combustion of 21/60000.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してプロペラ(7A)回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) and driving a propeller (7A) as an ultrahigh pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してプロペラ(7A)回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) and driving a propeller (7A) as an ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/20000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) as a super high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) for multiple revolution airplanes as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) for multiple revolution airplanes as ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転酸素合体プロペラ飛行機(39M)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple driving propeller (7A) multi-rotation oxygen combined propeller plane (39M) various energy storage cycle combined engine and combined Method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転酸素合体プロペラ飛行機(39M)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods in which a plurality of theoretical expansion engines (3P) are driven as ultrahigh pressure fuel combustion to drive a propeller (7A) a multi-rotation oxygen coalescence propeller airplane (39M).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動してプロペラ(7A)複数回転酸素合体プロペラ飛行機(39M)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engine and coalescence method in which a theoretical expansion engine (3P) is driven multiple times as a theoretical combustion chamber (4Y) ultra-high pressure fuel combustion and a propeller (7A) is driven by a multi-rotation oxygen coalescence propeller airplane (39M).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動してプロペラ(7A)回転酸素合体プロペラ飛行機(39M)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/20000 Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method of driving the theoretical expansion engine (3P) and driving the propeller (7A) rotary oxygen coalescence propeller airplane (39M) as ultrahigh pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動回転翼(7B)回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) driven rotor blades (7B) Rotate the plane to drive various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動回転翼(7B)回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods that rotate the theoretical expansion engine (3P) driven rotor blade (7B) as an ultrahigh pressure fuel combustion to drive the airplane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動回転翼(7B)回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods that rotate the theoretical expansion engine (3P) driven rotor blade (7B) as an ultrahigh pressure fuel combustion and drive the airplane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) Theoretical expansion engine (3P) Multi-drive rotor blade (7B) As an ultra-high pressure fuel combustion, various energy storage cycle coalescing engines and coalescence methods for driving the airplane by multiple revolutions.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) A theoretical expansion engine (3P), multiple drive rotor blades (7B), and various energy storage cycle coalescing engines and coalescence methods for driving an airplane by making multiple revolutions as ultrahigh pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) The various types of energy storage cycle coalescence engine and the coalescence method in which the theoretical expansion engine (3P) multi-drive rotor blades (7B) are driven by multiple revolutions as an ultra-high pressure fuel combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して酸素合体回転翼飛行機(39P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive rotor (7B) Oxygen combined rotor blade (39P) And coalescing method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して酸素合体回転翼飛行機(39P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) A theoretical expansion engine (3P), multiple drive rotor blades (7B), and an oxygen combined rotor blade airplane (39P) driven as an ultra-high pressure fuel combustion, and various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動回転翼(7B)複数回転して酸素合体回転翼飛行機(39P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engine and coalescence method for theoretical combustion engine (4Y) ultrahigh pressure fuel combustion, theoretical expansion engine (3P), multiple drive rotor blade (7B), multiple oxygen rotor blade airplane (39P) drive.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動回転翼(7B)回転して酸素合体回転翼飛行機(39P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) Drive rotor blade (7B) Rotating oxygen combined rotor blade airplane (39P) Method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動プロペラ(7A)回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) drive propeller (7A) Rotating oxygen coalesced air injection part (88A) Merge method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動プロペラ(7A)回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) drive propeller (7A) as an ultrahigh pressure fuel combustion and driving an oxygen coalescence air injection part (88A) injection propulsion airplane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動プロペラ(7A)回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) The supercombustion engine (3P) drive propeller (7A) as an ultra-high pressure fuel combustion, the oxygen coalesced air injection unit (88A), the various types of energy storage cycle coalescing engine and the coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) Multi-drive propeller (7A) Oxygen coalescence air injection unit (88A) Various types of energy storage cycle Organization and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) A theoretical expansion engine (3P) multiple drive propeller (7A) as an ultrahigh pressure fuel combustion, an oxygen combined air injection unit (88A) various energy storage cycle combined engines and a combined method for driving an injection propulsion airplane.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進飛行機駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) Super-high-pressure fuel combustion Theoretical expansion engine (3P) Multi-drive propeller (7A) Multiple rotations of oxygen combined air injection unit (88A)
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進酸素合体プロペラ噴射飛行機(39N)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) Super high pressure fuel combustion Theoretical expansion engine (3P) Multi-drive propeller (7A) Multiple rotations Oxygen combined air injection part (88A) Injection propulsion oxygen combined propeller injection airplane (39N) Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進酸素合体プロペラ噴射飛行機(39N)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Theoretical expansion engine (3P) multiple drive propeller (7A) as an ultra-high pressure fuel combustion multiple oxygen storage air injection section (88A) injection propulsion oxygen combination propeller injection plane (39N) various energy storage cycle combined engines and Merge method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)複数駆動プロペラ(7A)複数回転し酸素合体空気噴射部(88A)噴射推進酸素合体プロペラ噴射飛行機(39N)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) as an ultra-high pressure fuel combustion, theoretical expansion engine (3P), multiple drive propeller (7A), multiple rotations, oxygen combined air injection unit (88A), injection propulsion combined oxygen propeller injection plane (39N) and various energy storage cycles Merger engine and merger method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として理論膨張機関(3P)駆動プロペラ(7A)回転し酸素合体空気噴射部(88A)噴射推進酸素合体プロペラ噴射飛行機(39N)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air The theoretical combustion chamber (4Y) is driven by ultra-high pressure fuel combustion of 21/60000, and the theoretical expansion engine (3P) drive propeller (7A) rotates to drive the oxygen combined air injection unit (88A) injection propulsion oxygen combined propeller injection airplane (39N). Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air The theoretical combustion chamber (4Y) of the high-pressure high-temperature combustion gas control valve (5a) and the high-pressure high-temperature combustion gas (50) are injected from the open combustion gas injection nozzle (6Y) as the ultra-high pressure fuel combustion of 21/60000. 3P) Various energy storage cycle coalescence engines and coalescence methods to be driven.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) Combined with various energy storage cycles for injecting high-pressure and high-temperature combustion gas (50) from a high-pressure and high-temperature combustion gas control valve (5a) open combustion gas injection nozzle (6Y) and driving a theoretical expansion engine (3P) as ultrahigh-pressure fuel combustion Organization and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy for injecting high pressure high temperature combustion gas (50) from the high pressure high temperature combustion gas control valve (5a) open combustion gas injection nozzle (6Y) and driving the theoretical expansion engine (3P) as the theoretical combustion chamber (4Y) ultra high pressure fuel combustion Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転する理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/20000 Theoretical combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y) and the upper expansion blade ( 8d) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) that reversely inverts the lower expansion blade (8e) on the horizontal axis (1h).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転する理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) High pressure high temperature combustion gas control valve (5a) as an ultra high pressure fuel combustion, high pressure high temperature combustion gas (50) is injected from an open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade (8e) Various energy storage cycle coalescing engine and coalescence method for driving a theoretical expansion engine (3P) that reverses the horizontal axis (1h).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転する理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y) as theoretical combustion chamber (4Y) ultra high pressure fuel combustion, and upper expansion blade (8d) lower expansion blade (8e) A horizontal expansion axis (1h) A theoretical expansion engine (3P) that double-rotates, and various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転組立タービン翼(8f)組立の理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/20000 Theoretical combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y) and the upper expansion blade ( 8d) Various energy storage cycle coalescence engines and coalescence methods in which the lower expansion blade (8e) is driven by the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転組立タービン翼(8f)組立の理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) High pressure high temperature combustion gas control valve (5a) as an ultra high pressure fuel combustion, high pressure high temperature combustion gas (50) is injected from an open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade (8e) Various energy storage cycle coalescing engines and coalescence methods for driving the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転組立タービン翼(8f)組立の理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y) as theoretical combustion chamber (4Y) ultra high pressure fuel combustion, and upper expansion blade (8d) lower expansion blade (8e) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) of a horizontal axis (1h) counter-rotating assembly turbine blade (8f) assembly.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放空気吸引燃焼量増大し、燃焼ガス噴射ノズル(6Y)より高圧高温燃焼ガス(50)を噴射して上側膨張翼(8d)下側膨張翼(8e)を横軸(1h)二重反転組立タービン翼(8f)組立の理論膨張機関(3P)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) The high-pressure high-temperature combustion gas control valve (5a) increases the amount of open air suction combustion as ultrahigh-pressure fuel combustion, and the high-pressure high-temperature combustion gas (50) is increased from the combustion gas injection nozzle (6Y). Various energy storage cycle coalescence engine and coalescence method for injecting and driving the upper expansion blade (8d) and the lower expansion blade (8e) to the horizontal expansion shaft (1h) and the theoretical expansion engine (3P) of the counter rotating turbine blade (8f) .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張する理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/40000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion Various energy storage cycle coalescence engine to be expanded to a theoretical expansion engine (3P) expanding 380 degrees in the circumferential direction, Merge method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張する理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) A high-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion, various energy storage cycle coalescing engines and coalescence methods for a theoretical expansion engine (3P) that expands and expands 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張する理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods for a theoretical combustion chamber (4Y), a high-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion, and a theoretical expansion engine (3P) that expands and expands 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high-pressure fuel combustion Various energy to make the theoretical expansion engine (3P) with maximum expansion speed 380 degrees expansion in the circumferential direction Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion, various energy storage cycle coalescing engines and coalescence methods for a theoretical expansion engine (3P) that opens at a maximum drive speed by expanding 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion Various energy storage cycle coalescence engine and coalescence to be a theoretical expansion engine (3P) that opens at a maximum drive speed by expanding 380 degrees in the circumferential direction Method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張と二重反転で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high-pressure fuel combustion Opening in the circumferential direction 380 degrees expansion expansion and double reversal Theoretical expansion engine (3P) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張と二重反転で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve as ultrahigh-pressure fuel combustion (5a) Various energy storage cycle coalescing engines to be a theoretical expansion engine (3P) that opens at a maximum drive speed by 380 degrees expanded expansion and double reversal in the circumferential direction; Merge method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張と二重反転で最大駆動速度にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high-pressure fuel combustion Various energy storage cycles to make the theoretical expansion engine (3P) open at the maximum circumferential speed by 380 degree expansion and counter rotation Merger engine and merger method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、圧縮容積を空気圧縮の21/60000にする理論燃焼室(4Y)超高圧燃料燃焼として高圧高温燃焼ガス制御弁(5a)開放円周方向380度拡大膨張と二重反転にする理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low-cost power generation electricity production, compresses the compressed volume by air 21/60000 Theoretical combustion chamber (4Y) The high-pressure high-temperature combustion gas control valve (5a) as the ultrahigh-pressure fuel combustion Various energy to make the theoretical expansion engine (3P) to open and double inversion in the circumferential direction 380 degrees Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、液体燃料(1c)や水(52a)と共に液体圧縮し、圧縮容積を空気圧縮の21/60000容積等で超高圧圧縮燃料噴射燃焼する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Various energy storage cycle coalescing engines and coalescence methods that compress the liquid together with water and water (52a) and make the compression volume into a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression or the like.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮し、圧縮容積を空気圧縮の21/60000容積等で超高圧圧縮燃料噴射燃焼する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), liquid fuel ( 1c) Various energy storage cycle coalescence engines and coalescence methods that compress the liquid together with water (52a) and make the compression volume a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression or the like.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮し、圧縮容積を空気圧縮の21/60000容積等で超高圧圧縮燃料噴射燃焼する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescing engine and coalescence, which are liquid compressed with liquid fuel (1c) and water (52a), and the compression volume is a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression, etc. Method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Various energy storage cycle coalescence engines and coalescence methods that compress liquid together with water and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), liquid fuel ( 1c) Various energy storage cycle coalescence engines and coalescence methods in which liquid is compressed together with water (52a) and heated to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods that compress liquid together with liquid fuel (1c) and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production, liquid fuel (1c) Various energy storage cycles to open the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y) by liquid compression with water and water (52a) Merger engine and merger method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), liquid fuel ( 1c) Various energy for compressing liquid together with water (52a) and opening the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y) Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Liquid oxygen is compressed together with liquid fuel (1c) and water (52a), and the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、液体燃料(1c)や水(52a)と共に液体圧縮して理論燃焼室(4Y)内壁で最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放受給過熱蒸気と共に噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M), an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), liquid fuel (1c) and liquid (52a) are liquid compressed and the heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods for injection with steam.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K), heated oxygen to the optimum temperature The control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is a theoretical combustion chamber (4Y) that heats the peripheral superheated steam (50) by burning at 3000 ° C. or more near the center of the open oxygen fuel burner. Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, to the optimum temperature Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened in the vicinity of the center of the oxygen fuel burner. Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱する理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Heating oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature Theoretical combustion chamber that heats the outer superheated steam (50) by combustion at 3000 ° C. or more near the center of the oxygen fuel burner (4Y) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K), heated oxygen to the optimum temperature Control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aimed at electrolysis.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, to the optimum temperature Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) are opened near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aimed at pyrolysis and electrolysis.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature. Oxygen fuel burner is heated near 3000 ° C in the vicinity of the center of the oxygen burner. Various energy storage cycle coalescing engine and coalescence method in the vicinity of the suction combustion electrolysis and theoretical combustion chamber (4Y) aiming at electrolysis.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解酸素水素増大燃焼狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K), heated oxygen to the optimum temperature Control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aimed at electrolysis oxygen hydrogen augmentation combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解酸素水素増大燃焼狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, to the optimum temperature Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) are opened near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aimed at pyrolytic electrolysis oxygen hydrogen augmentation combustion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解酸素水素増大燃焼狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the optimum temperature. Oxygen fuel burner is heated near 3000 ° C in the vicinity of the center of the oxygen burner. Various energy storage cycle coalescence engine and coalescence method in the vicinity of a suction combustion pyrolysis electrolysis oxygen hydrogen hydrogen increase combustion aiming at a theoretical combustion chamber (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、最適温度に加熱酸素制御弁(24D)+燃料制御弁(25b)+過熱蒸気制御弁(25)を開放酸素燃料バーナー中心付近複数3000℃以上燃焼で受給過熱蒸気含む外周過熱蒸気(50)を加熱一部を中心付近に吸引熱分解電気分解酸素水素増大燃焼狙う理論燃焼室(4Y)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical all-blade hydrogravity turbine (8M) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + superheated steam, optimal temperature Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) open oxygen fuel burner near the center of the burner Multiple over 3000 ° C combustion Peripheral superheated steam (50) including received superheated steam partially heated Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at increased combustion by suction pyrolysis electrolysis oxygen hydrogen hydrogen near the center.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined combustion gas (49) and an oxygen combined water injection unit (88K) for injection acceleration injection, and various energy storage cycle combining engines and combining methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber Various energy storage cycle coalescence engines and coalescence methods in which (4Y) is a streamlined combustion gas (49) and oxygen coalescence water injection part (88K) for injection acceleration injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which a theoretical combustion chamber (4Y) is a streamlined type and a plurality of in-line combustion gas (49) oxygen merging water injection parts (88K) for accelerating injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined combustion gas (49) provided in series (4Y) and an oxygen combined water injection unit (88K) that uses oxygen + fuel + superheated steam on the inner wall and combustion flow inner wall (5d) at an optimal temperature. Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber Oxygen combined water injection unit (88K) using (4Y) streamlined combustion gas (49) provided in series and (4Y) inner wall or combustion flow inner wall (5d) oxygen + fuel + superheated steam heated at optimum temperature Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen combined water injection unit that uses the combustion gas (49) with the theoretical combustion chamber (4Y) as a streamline type and a plurality of in-line combustion gases (49) and oxygen + fuel + superheated steam on the inner wall (5Y) and combustion flow inner wall (5d) (88K) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined combustion gas (49), and oxygen combination of (4Y) inner wall and combustion flow inner wall (5d) with oxygen + fuel + superheated steam is heated to the optimum temperature to achieve theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engine and coalescence method made into water injection part (88K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) is a streamlined combustion gas (49) with a plurality of in-series combustion gas (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make a theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) is a streamlined combustion gas (49) equipped with a plurality of series combustion chambers (4Y) and the combustion wall (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to burn the theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injection section (88K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+受給加熱蒸気を含む過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives electricity, liquid air cold heat, superheated steam temperature supply equipment (3D), receives cheap liquid oxygen (5K) + superheated steam, and theoretical combustion Combustion gas (49) having a plurality of series chambers (4Y) as a streamline type (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam containing received heating steam is heated to an optimum temperature to generate a theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injection section (88K) for combustion or the like.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall + Fuel + Superheated steam is heated to the optimum temperature, oxygen combustion burner near the center of the theoretical combustion chamber (4Y), burned at 3000 ° C or more, and oxygen combined water injection unit (88K) aimed at superheated steam suction pyrolysis electrolysis to save various energy Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall Oxygen + fuel + superheated steam is heated at an optimal temperature, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more to produce an oxygen combined water injection part (88K) aimed at superheated steam suction pyrolysis electrolysis Energy conservation cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, and oxygen fuel burner near the center of the theoretical combustion chamber (4Y) burns at 3000 ° C or more. Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall + The fuel + superheated steam is heated at the optimum temperature, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more to superheated steam suction pyrolysis electrolysis oxygen hydrogen increased combustion target oxygen combined water injection part (88K) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall Oxygen + fuel + superheated steam at the optimum temperature, near the center of the theoretical combustion chamber (4Y) oxygen fuel burner Over 3000 ° C combustion with superheated steam suction pyrolysis electrolysis oxygen hydrogen increased combustion target oxygen combined water injection part (88K ) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, and oxygen fuel burner near the center of the theoretical combustion chamber (4Y) burns over 3000 ° C to superheated steam suction pyrolysis electrolysis oxygen hydrogen hydrogen combustion targeted oxygen combined water injection (88K) various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall The fuel + superheated steam is heated at the optimum temperature and heated near the center of the theoretical combustion chamber (4Y) by oxyfuel burner at a temperature of 3000 ° C or more to heat and heat the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engine and coalescence method in the oxygen coalescence water injection part (88K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall The oxygen + fuel + superheated steam is heated at the optimum temperature, and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns at 3000 ° C or more to burn the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) for heat injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, and the combustion chamber inner wall (5d) superheated steam (95c) superheated steam (95c) is burned by multiple oxygen fuel burners near the center of the theoretical combustion chamber (4Y). 50) An oxygen combination water injection unit (88K) that heats and injects various energy storage cycle combination engines and a combination method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の受給過熱蒸気を含む過熱蒸気(50)を加熱噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) of extremely cheap electricity generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns more than 3000 ° C and includes the received superheated steam in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) that heat-injects superheated steam (50).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low cost electricity production, and sucks air (28a) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injecting section (88K) that combusts and injects a plurality of streamlined theoretical combustion chambers (4Y) at the optimum injection flow location.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical type moving blade water gravity turbine (8M) is an extremely inexpensive generator for electric power generation. Electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, air (28a ) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) that combusts and injects a plurality of streamlined theoretical combustion chambers (4Y) even at the optimum location of the suction injection flow.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体水噴射部(88K)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which an oxygen coalescence water injection section (88K) that combusts and injects the air (28a) suction injection flow at the optimum location in the same manner as the plural streamlined theoretical combustion chambers (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大した各種エネルギ保存サイクル合体機関及び合体方法。
Vertical all-blade water gravity turbine (8M), an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen combined water injection unit (88K) Various energy storage cycle coalescing engines and coalescence methods in which the air inlet is expanded forward.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大した各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined water Various energy storage cycle coalescence engines and coalescence methods in which the air inlet is expanded forward by using an injection unit (88K).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大した各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which the oxygen coalescence water injection section (88K) is used to expand the air inlet forward.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大して直線に近付けて船底に気泡最大噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical all-blade water gravity turbine (8M), an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), oxygen combined water injection unit (88K) Various energy storage cycle coalescing engines and coalescence methods that expand the air inlet forward, approach the straight line, and inject the maximum amount of bubbles to the bottom of the ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大して直線に近付けて船底に気泡最大噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined water Various energy storage cycle coalescence engines and coalescence methods that use an injection section (88K) to enlarge the air inlet forward and bring it close to a straight line to inject the maximum amount of bubbles to the bottom of the ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大して直線に近付けて船底に気泡最大噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which an oxygen coalescence water injection section (88K) is used to enlarge the air inlet forward and bring it close to a straight line to inject the maximum amount of bubbles to the bottom of the ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、酸素合体水噴射部(88K)にして空気入口を前向き拡大して直線に近付けて船底に気泡最大噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electricity generation, receives cheap liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and combines oxygen Various energy storage cycle coalescence engines and coalescence methods that use a water injection section (88K) to expand the air inlet forward and bring it close to a straight line to inject the maximum amount of bubbles to the bottom of the ship.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined type of combustion gas (49) various energy storage cycle coalescing engine and coalescence method in an oxygen coalescence air injection part (88A) for accelerated injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber Various energy storage cycle coalescence engines and coalescence methods in which (4Y) is a streamlined combustion gas (49) and an oxygen coalescence air injection section (88A) for accelerated acceleration injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)噴射加速噴射の酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which a theoretical combustion chamber (4Y) is a streamlined type, and a plurality of in-line combustion gas (49) oxygen merging air injection portions (88A) for accelerating injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined combustion gas (49), and (4Y) the oxygen combined air injection unit (88A) that uses the oxygen + fuel + superheated steam on the inner wall and combustion flow inner wall (5d) at the optimum temperature is used. Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber Oxygen combined air injection unit (88A) using (4Y) streamlined combustion gas (49) provided in series and (4Y) inner wall or combustion flow inner wall (5d) oxygen + fuel + superheated steam heated at optimal temperature Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して使用する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen combined air injection unit that uses oxygen gas, fuel, and superheated steam on the inner wall of combustion flow (4Y) and combustion flow inner wall (5d) at the optimum temperature with combustion gas (49) equipped with a plurality of serial combustion chambers (4Y) in a streamlined form (88A) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical full-blade hydrogravity turbine (8M) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y ) Is a streamlined combustion gas (49), and oxygen combination of (4Y) inner wall and combustion flow inner wall (5d) with oxygen + fuel + superheated steam is heated to the optimum temperature to achieve theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in the air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical combustion blade hydrogravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap liquid oxygen (5K) + electricity, theoretical combustion chamber (4Y) is a streamlined combustion gas (49) with a plurality of in-series combustion gas (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make a theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Theoretical combustion chamber (4Y) is a streamlined combustion gas (49) equipped with a plurality of series combustion chambers (4Y) and the combustion wall (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to burn the theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、理論燃焼室(4Y)を流線型として複数直列具備の燃焼ガス(49)で(4Y)内壁や燃焼流内壁(5d)の酸素+燃料+受給加熱蒸気を含む過熱蒸気を最適温度加熱して理論燃焼室(4Y)燃焼等にする酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade hydrogravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives electricity, liquid air cold heat, superheated steam temperature supply equipment (3D), receives cheap liquid oxygen (5K) + superheated steam, and theoretical combustion Combustion gas (49) having a plurality of series chambers (4Y) as a streamline type (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam containing received heating steam is heated to an optimum temperature to generate a theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A) for combustion or the like.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall + Fuel + Superheated steam is heated to the optimum temperature, oxygen combustion burner in the vicinity of the center of the theoretical combustion chamber (4Y), burned at 3000 ° C or more, and combined oxygen injection air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall Oxygen + fuel + superheated steam at the optimum temperature, oxygen combustion burner near the center of the theoretical combustion chamber (4Y), a variety of oxygen combined air injection part (88A) aimed at superheated steam suction pyrolysis electrolysis by combustion at 3000 ° C or more Energy conservation cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, oxygen combustion burner near the center of the theoretical combustion chamber (4Y), and oxygen combined air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis with over 3000 ° C combustion Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall + The fuel + superheated steam is heated to the optimum temperature and the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner is burned at 3000 ° C or more to superheated steam suction pyrolysis electrolysis oxygen hydrogen increased combustion target oxygen combined air injection part (88A) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall Oxygen + fuel + superheated steam at an optimal temperature to heat the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner Over 3000 ° C combustion with superheated steam suction pyrolysis electrolysis oxygen hydrogen increased combustion target oxygen coalesced air injection unit (88A ) Various energy storage cycle coalescence engines and coalescence methods.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で過熱蒸気吸引熱分解電気分解酸素水素増大燃焼狙いの酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) is burned at 3000 ° C or more. Part (88A) various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade hydrogravity turbine (8M) receives extremely low-priced electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), receives low-priced liquid oxygen (5K), and oxygen on each inner wall The fuel + superheated steam is heated at the optimum temperature and heated near the center of the theoretical combustion chamber (4Y) by oxyfuel burner at a temperature of 3000 ° C or more to heat and heat the superheated steam (50) in the combustion flow inner wall (5d) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + electricity, each inner wall The oxygen + fuel + superheated steam is heated at the optimum temperature, and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns at 3000 ° C or more to burn the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A) for heat injection.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の過熱蒸気(50)を加熱噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Oxygen + fuel + superheated steam is heated at the optimum temperature on each inner wall, and the combustion chamber inner wall (5d) superheated steam (95c) superheated steam (95c) is burned by multiple oxygen fuel burners near the center of the theoretical combustion chamber (4Y). 50) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A) that heat-injects 50).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、夫々の内壁で酸素+燃料+過熱蒸気を最適温度加熱して理論燃焼室(4Y)中心付近酸素燃料バーナー複数3000℃以上燃焼で燃焼流内壁(5d)外周過熱蒸気溜(95c)の受給過熱蒸気を含む過熱蒸気(50)を加熱噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) of extremely cheap electricity generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall, and the theoretical combustion chamber (4Y) near the center oxygen fuel burner burns more than 3000 ° C and includes the received superheated steam in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A) that heat-injects superheated steam (50).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam heat supply equipment (3D) of extremely low cost electricity production, and sucks air (28a) Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A) that combusts and injects a plurality of streamlined theoretical combustion chambers (4Y) at the optimal injection flow location.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical type moving blade water gravity turbine (8M) is an extremely inexpensive generator for electric power generation. Electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, air (28a ) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalesced air injection part (88A) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) even at the optimum place of the suction injection flow.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、空気(28a)吸引噴射流最適箇所にも複数の流線型理論燃焼室(4Y)具備同様に燃焼噴射する酸素合体空気噴射部(88A)にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods in which an oxygen coalescence air injection section (88A) that combusts and injects the air (28a) suction injection flow at the optimum place in the same manner as the plural streamlined theoretical combustion chambers (4Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、酸素合体空気噴射部(88A)を回転して垂直上昇降下を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined air injection unit (88A) various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、酸素合体空気噴射部(88A)を回転して垂直上昇降下を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical all-blade water gravity turbine (8M), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined air Various energy storage cycle coalescence engines and coalescence methods that enable the vertical rise and fall by rotating the injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、酸素合体空気噴射部(88A)を回転して垂直上昇降下を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent by rotating the oxygen coalescence air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給して、酸素合体空気噴射部(88A)を回転して逆噴射を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined air injection unit (88A) Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給して、酸素合体空気噴射部(88A)を回転して逆噴射を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical all-blade water gravity turbine (8M), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and oxygen combined air Various energy storage cycle coalescence engines and coalescence methods that enable the reverse injection by rotating the injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給して、酸素合体空気噴射部(88A)を回転して逆噴射を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the oxygen coalescence air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給して、酸素合体空気噴射部(88A)を回転して逆噴射を可能にした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electricity generation, receives cheap liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and combines oxygen Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the air injection section (88A).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)とした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas Various energy storage cycle coalescing engines and coalescence methods that are electrically driven theoretical gas compressors (3T) that compress from the outer peripheral long compression blades to the central short compression blades, which are inversely proportional to the pressure.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)とした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods as an electrically driven theoretical gas compressor (3T) that compresses the outer peripheral long compression blades to the central short compression blades.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)とした各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure Various energy storage cycle coalescing engines and coalescence methods as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade in an inversely proportional manner.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade aiming inversely proportional to pressure.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses the outer peripheral large compression blades to the central short compression blades.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure Various energy storage cycle coalescence engines and coalescence methods for sucking and compressing air as an electrically driven theoretical gas compressor (3T) that compresses from an outer peripheral large compression blade to an inversely proportional compression blade to a central short compression blade.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮熱交換過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam that sucks air as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade that is aimed at inversely proportional to pressure to a central short compressor blade.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮熱交換過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam that sucks air as an electrically driven theoretical gas compressor (3T) that compresses the outer peripheral large compression blades into the central short compression blades.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮熱交換過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam that sucks air as an electrically driven theoretical gas compressor (3T) that compresses from an outer peripheral long large compression blade to a central short compression blade in inverse proportion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮熱交換過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receiving cheap electricity + high temperature water (52b) + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, Various energy storage cycle coalescence engines that produce compressed heat exchange superheated steam that sucks air as an electrically driven theoretical gas compressor (3T) that compresses a gas volume from an outer circumferential large compression blade whose inverse is proportional to pressure to a central short compression blade, and Merge method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade that is inversely proportional to the pressure to a central short compressor blade, air is sucked in and compressed and compressed air heat exchanger (2Y) is used to produce superheated steam. Cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for producing superheated steam with an intake-compression air compressor (2Y) as an electrically driven theoretical gas compressor (3T) that compresses an outer peripheral large compression blade into a central short compression blade .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure Various energy conservation cycle coalescence engines that produce superheated steam with an intake compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade in inverse proportion And coalescing method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade aiming inversely proportional to the pressure to a central short compressor blade, air is sucked into the compressed compressed air heat exchanger (2Y) to produce and supply superheated steam (3D ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure Various types of energy for supplying superheated steam to the production and supply equipment (3D) with an intake-compression compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses the outer peripheral large compression blades into the central short compression blades Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade, the superheated steam is supplied to the production and supply equipment (3D) using a suction compressed air heat exchanger (2Y). Various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), volume of gas Manufactures and supplies compressed air + superheated steam with an intake-compressed-compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade targeted at an inverse proportion to pressure to a central short compressor blade Various energy storage cycle coalescence engines and coalescence methods to be supplied to the facility (3D).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M), which is an extremely inexpensive generator for electric power generation, receives cheap electricity from electricity + liquid air cooling + superheated steam temperature supply equipment (3D), and the volume of gas is aimed at inversely proportional to pressure As an electrically driven theoretical gas compressor (3T) that compresses the outer peripheral large compression blades into the central short compression blades, air is sucked into the compressed air heat exchanger (2Y) and compressed air + superheated steam is supplied to the production and supply equipment (3D) Various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply facility (3D) receives cheap electricity + superheated steam, the volume of gas becomes pressure As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade to a central short compressor blade for inverse proportion, air is sucked in and compressed compressed air heat exchanger (2Y) manufactures and supplies compressed air + superheated steam (3D ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価電気+高温水(52b)+過熱蒸気を受給して、気体の体積が圧力に反比例狙いの外周長大圧縮翼から中心短圧縮翼に圧縮する電気駆動の理論気体圧縮機(3T)として空気を吸入圧縮圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気を製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Receiving cheap electricity + high temperature water (52b) + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely cheap power generation electricity production, As an electrically driven theoretical gas compressor (3T) that compresses the gas volume from the outer peripheral large compression blade, which aims at an inverse proportion to the pressure, to the central short compression blade, the air is sucked into the compressed air heat compressor (2Y), compressed air + superheated steam Various energy storage cycle coalescing engines and coalescence methods for supplying the production and supply equipment (3D).
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成とした各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods that are configured to be compressed.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として空気圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescence methods for compressing air as a structure to be compressed.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として空気(28a)圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescing methods for compressing air (28a) as a structure to be compressed into ().
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods that compress air (28a) from the outer periphery to the suction center.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮水を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescence methods for heating air (28a) compressed water from the outer periphery to the suction center as a structure to be compressed to the outer periphery.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮高温水を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods for heating air (28a) compressed high-temperature water from the outer periphery to the suction center as a configuration to be compressed into the suction center.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮過熱蒸気を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescence methods for heating air (28a) compressed superheated steam from the outer periphery to the suction center as a structure to be compressed to the outer periphery.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮圧縮空気熱交換器(2Y)で水を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods in which water is heated from the outer periphery to the suction center by air (28a) with a compressed compressed air heat exchanger (2Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮圧縮空気熱交換器(2Y)で高温水を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods in which high temperature water is heated by air (28a) compressed air compression heat exchanger (2Y) from the outer periphery to the suction center.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として外周から吸入中心に空気(28a)圧縮圧縮空気熱交換器(2Y)で過熱蒸気を加熱する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods in which superheated steam is heated by air (28a) compressed and compressed air heat exchanger (2Y) from the outer periphery to the suction center.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で過熱蒸気製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescence methods for producing superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into ().
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescing engines and coalescence methods for producing compressed air + superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into ().
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で高圧圧縮空気+高圧過熱蒸気製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods for producing high-pressure compressed air + high-pressure superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into a high pressure).
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で超高圧圧縮空気+超高圧過熱蒸気製造する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods for producing ultra-high pressure compressed air + ultra-high pressure superheated steam with a compressed air heat exchanger (2Y) as a structure to be compressed into a high pressure)
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で圧縮空気+過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the compressed air + superheated steam production / supply facility (3D) by the compressed air heat exchanger (2Y) as a structure to be compressed into the above.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で高圧圧縮空気+高圧過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the high pressure compressed air + high pressure superheated steam production / supply facility (3D) by the compressed air heat exchanger (2Y) as a structure to be compressed into the above.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で超高圧圧縮空気+超高圧過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the ultra high pressure compressed air + ultra high pressure superheated steam production / supply facility (3D) by the compressed air heat exchanger (2Y) as a structure to be compressed into the above.
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で液体空気+超高圧過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to liquid air + super-high pressure superheated steam production / supply facility (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into a gas).
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で液体酸素+液体窒素+超高圧過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to the liquid oxygen + liquid nitrogen + super high pressure superheated steam production / supply facility (3D) by the compressed air heat exchanger (2Y).
竪型全動翼水重力タービン(8M)極端に安価発電電気駆動の、理論気体圧縮機(3T)を気体の体積が圧力に反比例遵守として外周長大圧縮翼(8)から中心短圧縮翼(8)に圧縮する構成として圧縮空気熱交換器(2Y)で電気+液体酸素+液体窒素+超高圧過熱蒸気製造供給設備(3D)に供給する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically-moving blade hydrogravity turbine (8M) An extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with the pressure inversely proportional to the pressure, from the outer peripheral long compression blade (8) to the central short compression blade (8 ) Various energy storage cycle coalescence engines and coalescence methods to be supplied to electricity + liquid oxygen + liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into (3).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference Various energy storage cycle coalescence engines and coalescence methods in which fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d) in the expansion process in the direction of 380 degrees.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, Various energy storage cycle coalescence engines and coalescence methods in which fuel is injected and combusted from a plurality of locations in the fuel pipe (25a) and extended upper expansion blade group (8d) in the expansion process of 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity Then, in the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescence engines and coalescence methods for performing fuel injection combustion from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference Various energy storage cycle coalescence engines and coalescence methods for increasing the fuel injection combustion combustion amount from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d) in the expansion process in the direction of 380 degrees.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, Various energy storage cycle coalescence engines and coalescence methods for increasing the fuel injection combustion combustion amount from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d) in the expansion process of 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply produced Then, in the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescence engines and coalescence methods for increasing the fuel injection combustion combustion amount from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d).
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference Various energy storage cycle coalescence engines and coalescence methods for air compression with the turbine outer box (77a) in the direction of 380 degree expansion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, Various energy storage cycle coalescence engines and coalescence methods for air compression with the turbine outer casing (77a) in the circumferential expansion process of 380 degrees.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity Then, various energy storage cycle coalescing engines and coalescence methods for compressing air with the turbine outer casing (77a) in the expansion process of 380 degrees in the circumferential direction.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) cheap liquid oxygen (5K) + superheated steam received fuel injection combustion Various energy storage cycle coalescence engines and coalescence methods for compressing air with the turbine outer casing (77a) in the circumferential direction of 380 degrees expansion process.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference Various energy storage cycle coalescence engines and coalescence methods in which a plurality of air compression upper expansion blade groups (8d) and lower expansion blade groups (8e) are injected into and out of the turbine outer casing (77a) in the direction of 380 degree expansion.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, Various energy storage cycle coalescence engine and coalescence method in which a plurality of air compression upper expansion blade groups (8d) and lower expansion blade groups (8e) are injected into and out of the turbine outer casing (77a) in the circumferential expansion process of 380 degrees .
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity Then, in the process of expansion in the circumferential direction of 380 degrees, various energy storage cycle coalescing engines in which a plurality of air compression upper-side expansion blade groups (8d) and lower-side expansion blade groups (8e) are injected into and out of the turbine outer casing (77a). And coalescing method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する理論膨張機関(3P)にする各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference In the expansion process in the direction of 380 degrees, the air compression between the upper expansion blade group (8d) and the lower expansion blade group (8e) between the turbine outer casing (77a) and the theoretical expansion engine (3P) that increases the fuel combustion amount at a plurality of locations. Various energy storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, In the expansion process of 380 degrees in the circumferential direction, the air compression and the upper outer blade group (8d) and the lower expansion blade group (8e) with the turbine outer casing (77a) are combined with various energy storage cycles to increase the amount of injected fuel combustion. Organization and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity Then, in the process of expansion in the circumferential direction of 380 degrees, various energies that increase the amount of fuel burned by injection of air at each of the upper expansion blade group (8d) and the lower expansion blade group (8e) with the turbine outer casing (77a). Storage cycle coalescence engine and coalescence method.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼し、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), fuel injection and combustion, and the circumference During the expansion process in the direction of 380 degrees, fuel is injected and combusted from a plurality of locations in the fuel pipe (25a) extended upper expansion blade group (8d), and air compression is performed on the lower side of the upper expansion blade group (8d) between the turbine outer casing (77a). Expansion blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the combustion amount of fuel injected at a plurality of locations.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼し、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), which is an extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) cheap liquid oxygen (5K) + electricity received fuel injection combustion, During the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) and the upper expansion blade group (8d) are fuel-injected and combusted from a plurality of locations, and air compression is performed between the upper expansion blade group (8d) and the turbine outer casing (77a). Lower expansion blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel injected at multiple locations.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+電気+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼し、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M), fuel-injection combustion that receives liquid oxygen (5K) + electricity + superheated steam, which is cheaper than electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity Then, in the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) extends the upper expansion blade group (8d) to inject and burn the fuel from a plurality of locations, and compresses the air between the upper expansion blade group and the turbine outer box (77a). (8d) Lower expansion blade group (8e) Various energy storage cycle coalescence engines and coalescence methods for increasing the amount of fuel injected at a plurality of locations.
竪型全動翼水重力タービン(8M)極端に安価発電電気製造の、電気+液体空気冷熱+過熱蒸気温熱供給設備(3D)より安価液体酸素(5K)+過熱蒸気を受給燃料噴射燃焼して、円周方向380度膨張過程で、燃料管(25a)延長上側膨張翼群(8d)複数個所より燃料噴射燃焼し、タービン外箱(77a)との間で空気圧縮夫々上側膨張翼群(8d)下側膨張翼群(8e)複数個所噴射燃料燃焼量増大する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical type moving blade water gravity turbine (8M) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) cheap liquid oxygen (5K) + superheated steam received fuel injection combustion In the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) extends upper expansion blade group (8d), fuel is injected and combusted from a plurality of locations, and air compression is performed between the upper expansion blade group (8d) and the turbine outer casing (77a). ) Lower expansion blade group (8e) Various energy storage cycle coalescence engines and coalescence methods for increasing the amount of fuel injected at a plurality of locations.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転する磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type all-blade water gravity turbine (8M) Turbine utilizing magnetic force that doubles the cylinder inner blade group (60C) and cylinder outer blade group (60D) by injecting water into the vacuum under ultra-high pressure vertically and accelerating gravitational acceleration. Various energy storage cycle coalescence engine and coalescence method for generating electricity.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転する磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Magnetic force that doubles the cylinder inner rotor blade group (60C) and cylinder outer rotor blade group (60D) by reversing water by jetting water under a super high pressure vertically downward in vacuum. Various energy storage cycle coalescence engine and coalescence method for generating electricity as a turbine used.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転する磁力利用多数のタービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertical-type full-blade water gravity turbine (8M) Magnetic force that doubles the cylinder inner rotor blade group (60C) and cylinder outer rotor blade group (60D) by reversing water by jetting water under a super high pressure vertically downward in vacuum. Various energy storage cycle coalescence engines and coalescence methods for generating electricity as a large number of turbines used.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade water gravity turbine (8M) jets water vertically under ultra-high pressure in a vacuum and accelerates gravitational acceleration, thereby inverting the cylinder inner blade group (60C) and the cylinder outer blade group (60D) with a double reversal magnetic device (85 ) Various energy storage cycle coalescence engines and coalescence methods for generating power as a turbine utilizing magnetic force that doubles in reverse.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically moving blade water gravity turbine (8M) Ultra-high pressure vertically under vacuum, water jetting and acceleration of gravitational acceleration to rotate a plurality of cylindrical inner blade groups (60C) and outer cylinder blade groups (60D) as a contra-rotating magnetic device (85) Various energy conservation cycle coalescence engines and coalescence methods for generating power as a magnetically utilized turbine that double-reverses in (85).
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する磁力利用多数のタービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically moving blade water gravity turbine (8M) Ultra-high pressure vertically under vacuum, water jetting and acceleration of gravitational acceleration to rotate a plurality of cylindrical inner blade groups (60C) and outer cylinder blade groups (60D) as a contra-rotating magnetic device Various energy storage cycle coalescence engines and coalescence methods for generating electricity as a large number of turbines utilizing magnetic force that is double-reversed at (85).
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する重量支持等磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
A vertical all-blade water gravity turbine (8M) jets water vertically under ultra-high pressure in a vacuum and accelerates gravitational acceleration, thereby inverting the cylinder inner blade group (60C) and the cylinder outer blade group (60D) with a double reversal magnetic device (85 ) Various energy storage cycle coalescence engines and coalescence methods for generating electricity as a weight-supporting turbine using a magnetic force such as weight reversal.
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する重量支持等磁力利用タービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically moving blade water gravity turbine (8M) Ultra-high pressure vertically under vacuum, water jetting and acceleration of gravitational acceleration to rotate a plurality of cylindrical inner blade groups (60C) and outer cylinder blade groups (60D) as a contra-rotating magnetic device Various energy storage cycle coalescence engines and coalescence methods for generating power as a weight-supporting, etc., magnetic force turbine that double-reverses in (85).
竪型全動翼水重力タービン(8M)真空中超高圧垂直下方に水噴射し重力加速度加速して複数の円筒内側動翼群(60C)と円筒外側動翼群(60D)を二重反転磁気装置(85)で二重反転する重量支持等磁力利用多数のタービンとして発電する各種エネルギ保存サイクル合体機関及び合体方法。
Vertically moving blade water gravity turbine (8M) Ultra-high pressure vertically under vacuum, water jetting and acceleration of gravitational acceleration to rotate a plurality of cylindrical inner blade groups (60C) and outer cylinder blade groups (60D) as a contra-rotating magnetic device (85) Various energy storage cycle coalescence engines and coalescence methods for generating electricity as a large number of turbines using magnetic force such as weight support that double-reverses in (85)
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼+ジェット燃焼として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engine and coalescence method for driving vertical all-water blade water gravity turbine (8M) power generation electric product + rocket combustion + jet combustion oxygen coalescence water injection unit (88K).
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼2箇所+ジェット燃焼2箇所として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engine and coalescence method for driving oxygen coalescence water injection unit (88K) as vertical type moving blade water gravity turbine (8M) power generation electric product + rocket combustion 2 places + jet combustion 2 places.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼3箇所+ジェット燃焼3箇所として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection unit (88K) as a vertical all-blade water gravity turbine (8M) power generation electric product + three rocket combustion + three jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼4箇所+ジェット燃焼4箇所として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection unit (88K) as a vertical all blade water gravity turbine (8M) power generation electric product + 4 rocket combustion + 4 jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼5箇所+ジェット燃焼5箇所として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engine and coalescence method for driving oxygen combined water injection part (88K) as vertical type moving blade water gravity turbine (8M) power generation electric product + 5 rocket combustion + 5 jet combustion.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼6箇所+ジェット燃焼6箇所として酸素合体水噴射部(88K)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection unit (88K) as a vertical all-blade water gravity turbine (8M) power generation electrical product + 6 rocket combustion + 6 jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼+ジェット燃焼として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engine and coalescence method for driving vertical oxygen turbine water gravity turbine (8M) power generation electric product + rocket combustion + jet combustion with oxygen coalescence air injection unit (88A).
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼2箇所+ジェット燃焼2箇所として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence air injection unit (88A) as a vertical all blade water gravity turbine (8M) power generation electric product + two rocket combustion + two jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼3箇所+ジェット燃焼3箇所として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a vertical all blade water gravity turbine (8M) power generation electric product + three rocket combustion + three jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼4箇所+ジェット燃焼4箇所として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a vertical all blade hydrogravity turbine (8M) power generation electric product + 4 rocket combustion + 4 jet combustion locations.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼5箇所+ジェット燃焼5箇所として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence air injection unit (88A) as a vertical all-blade water gravity turbine (8M) power generation electric product + 5 rocket combustion + 5 jet combustion.
竪型全動翼水重力タービン(8M)発電電気製造物+ロケット燃焼6箇所+ジェット燃焼6箇所として酸素合体空気噴射部(88A)駆動する各種エネルギ保存サイクル合体機関及び合体方法。
Various energy storage cycle coalescence engines and coalescence methods for driving the oxygen coalescence air injection unit (88A) as a vertical type full-blade water gravity turbine (8M) power generation electric product + rocket combustion 6 locations + jet combustion 6 locations.