Claims (371)
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescing engine and coalescence method for generating 1-20 sets of turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 21 to 40 sets of power.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 41-60 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 61-80 sets of power.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 81-100 power sets.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 101-120 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 121-140 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engines and coalescence methods for generating turbines (8R) 141 to 160 sets.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engines and coalescence methods for generating turbine (8R) 161-180 power sets.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotations, and horizontal full-rotor blade water gravity Various energy storage cycle coalescence engine and coalescence method for generating turbine (8R) 181 to 200 sets of power.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of horizontal full-blade water gravity turbines (8R) driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 21-40 power generation driven by injection at .about.3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 41-60 power generation driven by injection at .about.3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 61-80 power generation driven by injection at .about.3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 100 to 100 sets of horizontal full blade hydrogravity turbine (8R) driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 101-120 generating electric power at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 121-140 set power generation driven by ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141 to 160 sets of electric power driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 161-180 sets of power driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 sets that are driven by injection at .about.3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 1 to 20 sets of horizontal all-blade water gravity turbines (8R) driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 21-40 power generation driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 41-60 power generation driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 61-80 power generation driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 100-100 sets of horizontal all-blade water gravity turbine (8R) driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 101-120 generating electric power as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 121-140 power generation set by injection driving as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 141 to 160 sets of electric power to be injected as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 161-180 power generation driven by injection as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 181 to 200 sets of electric power to be injected as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of diameter horizontal full blade hydrogravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescing engines and coalescence methods for generating 21-40 sets of horizontal full-blade water gravity turbines (8R) with a diameter.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating 41 to 60 sets of horizontal all-blade water gravity turbines (8R) having a diameter.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating 61 to 80 sets of horizontal all blade hydrogravity turbines (8R) of diameter.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 81-100 power generation of diameter.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 101-120 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 121-140 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 161-180 sets of diameters.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) A pair of counter-synchronous rotations, a series of co-rotating gears (4D) between the horizontal shafts (16A), and a set of each set rotating in the same vertical direction and at the same speed, allowing the entire inner diameter to be cut. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of horizontal full-blade hydrogravity turbine (8R) with the maximum inner diameter capable of cutting the entire inner diameter, driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a full-width horizontal full-blade hydrogravity turbine (8R) 21 to 40 sets of electric power that can be cut all over the inner surface driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 41-60 sets of horizontal full-blade hydrogravity turbines (8R) of the maximum diameter, which are capable of cutting the entire inner diameter, driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a set of 80 to 80 sets of full-width horizontal moving blade hydrogravity turbines (8R) with an inner diameter that can be driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a power generation of a horizontal full-blade hydrogravity turbine (8R) 81-100 with the maximum inner diameter capable of cutting the inside diameter driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 101-120 with the maximum diameter, capable of cutting the entire inner diameter, driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a full-width horizontal full-blade hydrogravity turbine (8R) 121-140 set with the maximum inner diameter capable of cutting the inside diameter driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 set of the maximum diameter, which can be cut all over the inside diameter driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water-gravity turbine (8R) 161-180 sets of the maximum diameter, which are capable of cutting the entire inner diameter, driven by injection at -3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1〜3で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a full-width horizontal full-blade hydrogravity turbine (8R) 181 to 200 sets of electric power that can be cut through the inner diameter driven by injection at ~ 3.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a set of 1 to 20 sets of horizontal full blade hydrogravity turbines (8R) of the maximum diameter that can be cut by the entire inner diameter that can be driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal full-blade hydrogravity turbine (8R) 21 to 40 sets of the maximum-diameter experimentally capable of cutting the entire inner diameter that is driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating 41-60 sets of full-width horizontal moving blade water gravity turbines (8R) having the maximum inner diameter capable of cutting the inside diameter by injection driving as described above.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of power generators of the horizontal full-blade hydrogravity turbine (8R) 61-80 with the maximum inner diameter capable of cutting the entire inner diameter, which is driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of horizontal full-wing blade water gravity turbines (8R) 81 to 100 with the maximum inner diameter capable of cutting the entire inner diameter that are driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)101〜120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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal full-blade hydrogravity turbine (8R) 101-120 with the maximum test diameter capable of cutting the entire inner diameter, which is driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all-blade hydrogravity turbine (8R) 121 to 140 sets of the maximum diameter that can be cut by the entire inner diameter that can be driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade water gravity turbine (8R) 141 to 160 sets of the maximum diameter, which can be cut all over the inner diameter, which is driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various energy storage cycle coalescence engines and coalescence methods for generating a set of horizontal full-blade hydrogravity turbines (8R) 161-180 having the maximum diameter, which are capable of cutting the entire inner diameter, which are driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定1組とし、水平軸(16A)に対向同期歯車(4C)具備して1組の対向同期回転にして、水平軸(16A)の間に直列同回転歯車(4D)具備し、1組夫々の垂直同方向同速度回転にして、水(3E)マッハ1以上で噴射駆動する内径全面切削可能実験最大径の横型全動翼水重力タービン(8R)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 horizontal shaft (16A) is fixed to both sides of the cylindrical turbine blade group (8A) with a horizontal shaft plate (16), and a pair of opposed synchronous gears (4C) is mounted on the horizontal shaft (16A). ) And a pair of counter-synchronized rotations, a series of co-rotating gears (4D) between the horizontal axes (16A), a pair of vertical and same-direction rotating speeds, and water (3E) Mach 1 Various types of energy storage cycle coalescence engine and coalescence method for generating a horizontal all-blade hydrogravity turbine (8R) 181 to 200 sets of the maximum-diameter test capable of cutting the entire inner diameter that is driven by injection.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescing engine and coalescence method for generating 1-20 sets of horizontal full blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 21-40 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal full blade water gravity turbine (8R) 41-60 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 61-80 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 81-100 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)100〜120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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating 100 to 120 sets of horizontal full-blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescing engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 121-140 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 161-180 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、対向直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 pair of two horizontal shafts (16A) fixed with horizontal shaft plates (16) on both sides of the cylindrical turbine blade group (8A), which is a wear-resistant super-water-repellent plating (3a), to form an opposed series full blade impeller turbine. Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade hydrogravity turbine (8R) 181 to 200 power sets.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of all-blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 21 to 40 sets of all-blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engines and coalescence methods for generating 41 to 60 sets of all blade hydrogravity turbines (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engine and coalescence method for generating all-blade water gravity turbine (8R) 61-80 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescing engine and coalescence method for generating all-blade water gravity turbine (8R) 81-100 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)100〜120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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating 100-120 sets of all-blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 121-140 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 141-160 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all-blade water gravity turbine (8R) 161-180 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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。
Horizontal type as a series full blade impeller turbine, with a set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16). Various energy storage cycle coalescence engine and coalescence method for generating all blades of water gravity turbine (8R) 181 to 200 sets.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating 1 to 20 sets of horizontal all-blade water gravity turbine (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all-blade water gravity turbine (8R) 21-40 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade water gravity turbine (8R) 41-60 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 61-80 sets of power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating a horizontal all blade water gravity turbine (8R) 81-100 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)100〜120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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engines and coalescence methods for generating 100 to 120 sets of horizontal full-blade water gravity turbines (8R).
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 121-140 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade hydrogravity turbine (8R) 141-160 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 161-180 power generation.
耐摩耗超撥水鍍金(3a)とした、円筒タービン翼群(8A)両側に水平軸(16A)を水平軸板(16)で固定2個1組とし、食込直列全動翼弾み車タービンとした横型全動翼水重力タービン(8R)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 set of two horizontal shafts (16A) fixed on both sides of the cylindrical turbine blade group (8A) by a horizontal shaft plate (16), which is a wear-resistant super water-repellent plating (3a). Various energy storage cycle coalescence engine and coalescence method for generating a horizontal all blade water gravity turbine (8R) 181 to 200 sets of power generation.
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(8R)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 surface of the water, and solar heated air is a vertical all-blade hydrogravity turbine (8R), which is an extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G ), 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(8R)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. The bladed water gravity turbine (8R) is an extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G) compressed by suction multiple times, and each compression is heat recovered by 1 to multi-stage compression heat recovery unit (2C) , 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(8R)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 rotation by maintaining the vertical angle at right angles in the vertical direction, and solar heating air is a vertical all-blade hydrogravity turbine (8R). 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(8R)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 vertical all blade hydrogravity turbine (8R), extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), compressed multiple times, 1 to multiple for each compression 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(8R)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 intake, the vertical all-blade water gravity turbine (8R) is 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(8R)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 a circular railroad on a flat ground, and solar heating air is supplied to a vertical-type all-blade water gravity turbine (8R), 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(8R)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 (8R) Extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G) compresses suction multiple times, and each compression recovers heat with 1 to multi-stage compression heat recovery unit (2C) 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(8R)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 in the vertical direction at right angles. 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(8R)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 hydrogravity turbine (8R) 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(8R)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). Irradiation internal air (28a) temperature is maximized, external air (28a) is also heated for each air passage (28A) as a high temperature selective suction, vertical all blade hydrogravity turbine (8R) extremely inexpensive power generation electric drive, 1 to multi-stage heat pump (1G), suction multiple times compression, and heat is recovered with 1 to multi-stage compression heat recovery unit (2C) for each compression, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) Various energy conservation cycle Union organizations and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receiving power from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely inexpensive power generation electricity production, recovering superheated steam heat injection methane into methane hydrate on the sea floor Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely inexpensive power generation electricity production, liquid superheated steam temperature heat injection methane into the methane hydrate on the sea floor Various energy storage cycle coalescence engines and coalescence methods for recovery with nitrogen (5L) cooled liquid methane.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam temperature heat injection methane into methane hydrate under permafrost Various energy storage cycle coalescence engine and coalescence method for recovering
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Received from electricity, liquid air cold heat + superheated steam temperature supply equipment (3D), extremely inexpensive power generation electricity production, superheated steam temperature heat injection methane into methane hydrate under permafrost land Various energy storage cycle coalescing engines and coalescence methods for recovering methane with liquid nitrogen (5L) cooled liquid methane.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electricity generation, received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), and superheated steam temperature heat injection enclosure to methane hydrate under permafrost land Various energy conservation cycle coalescence engines and coalescence methods that are provided for methane recovery and pasture grazing projects.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely inexpensive power generation electricity production, various recovered by installing superheated steam injection enclosure in oil sand zone Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely cheap electricity generation electricity production, various types of recovered by installing superheated steam injection enclosure in oil shale area Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) 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 engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Received from electricity + liquid air cold heat + superheated steam temperature supply facility (3D) of extremely low cost electricity production, food manufacturing industry etc. received superheated steam cheaply and cheap food Various energy conservation cycle coalescence engines and coalescence methods for mass production.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives cheap superheated steam from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), for agricultural, industrial and industrial use. Various energy conservation cycle coalescence engines and coalescence methods used for mining to make the best use of thermal energy.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving automobile by driving theoretical expansion engine (3P) as ultra high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving automobile by driving theoretical expansion engine (3P) as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) Super high pressure fuel combustion 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) drive generator (1) Drive storage battery (1A) as ultra-high pressure fuel combustion and storage battery drive wheel (4J) Rotation theoretical expansion engine Automobile (4K) various energy storage cycle coalescence engine And coalescing method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various types of energy storage for storing combustion battery (4Y) ultrahigh pressure fuel combustion in theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) and driving storage battery drive wheel (4J) rotation theoretical expansion engine automobile (4K) Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) drive generator (1) The drive battery (1A) is charged and the battery drive wheel (4J) rotation and normal wheel rotation are possible Various energy storage cycle coalescing engine and coalescence method for driving a theoretical expansion engine vehicle (4K).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) drive generator (1) Drives the storage battery (1A) as super high pressure fuel combustion and drives the storage battery drive wheel (4J) and the theoretical expansion engine car (4K) that can rotate the normal wheel Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory The combustion chamber (4Y) Theoretical expansion engine vehicle capable of accumulating in the theoretical expansion engine (3P) drive generator (1) drive storage battery (1A) as ultrahigh pressure fuel combustion and rotating the battery drive wheel (4J) and normal wheel rotation ( 4K) Various energy storage cycle coalescence engines and coalescence methods to be driven.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving theoretical expansion engine (3P) and driving theoretical expansion engine automobile (4K) as ultra high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), 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) rotating ship as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion and driving a screw (7C) rotating ship.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) multiple times and screw (7C) multiple rotation ship as the theoretical combustion chamber (4Y) ultra high pressure fuel combustion to 21/60000.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) a plurality of rotations as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which a combustion chamber (4Y) ultra-high pressure fuel combustion is driven by a plurality of theoretical expansion engines (3P) and a screw (7C) is driven by a plurality of rotation ships.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) multiple drive and screw (7C) multi-rotation oxygen coalescence screw ship (39H) driven various energy storage cycle coalescence engine and coalescence method .
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods that drive multiple theoretical expansion engines (3P) and screw (7C) multi-rotation oxygen coalescence screw ship (39H) as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) multi-rotation oxygen coalescence screw ship (39H) as combustion chamber (4Y) ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and driving the oxygen coalescence screw ship (39H) as ultra high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) drive and screw (7C) rotary oxygen coalescence water injection part (88K) Merge method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion and driving a screw (7C) rotary oxygen coalescence water injection part (88K) injection propulsion ship.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) Ultra high pressure fuel combustion, theoretical expansion engine (3P) multiple drive, screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion ship drive various energy conservation cycle coalescence Organization and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods that drive multiple theoretical expansion engines (3P) as ultra-high pressure fuel combustion to drive a screw (7C) multi-rotation oxygen coalescence water injection unit (88K) injection propulsion ship.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultra-high pressure fuel combustion by driving a plurality of theoretical expansion engines (3P) and driving a screw (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines that drive multiple theoretical expansion engines (3P) as ultra-high pressure fuel combustion to drive screws (7C) multi-rotation oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence screw injection vessel (39K), and Merge method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycles for driving the combustion chamber (4Y) ultra-high pressure fuel combustion with multiple theoretical expansion engines (3P) and driving with screw (7C) multi-turn oxygen combined water injection unit (88K) injection propulsion oxygen combined screw injection ship (39K) Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of 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) Organization and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion with multiple ultrahigh pressure fuel combustion injection propulsion Various energy storage cycle coalescence engines and coalescence methods for driving a ship.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship driven by multiple ultrahigh pressure fuel combustion injection propulsion and various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Oxygen coalescence water injection part (88K) injection propulsion ship driven by a theoretical combustion chamber (4Y) multiple ultrahigh pressure fuel combustion injection propulsion, and various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving an oxygen coalescence water injection part (88K) injection propulsion ship with multiple ultrahigh pressure fuel combustion injection propulsion including a streamlined theoretical combustion chamber (4Y) air suction flow path to 21/60000.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion ship driven by multiple ultrahigh pressure fuel combustion injection propulsion including air suction passages Various energy storage cycle coalescence engines and coalescence methods for driving a ship.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engine and coalescence method for driving oxygen combined water injection part (88K) injection propulsion ship equipped with theoretical combustion chamber (4Y) air suction flow path and multiple super high pressure fuel combustion injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 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 Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) driven by multiple ultrahigh pressure fuel combustion injection propulsion including air suction flow paths and various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for driving oxygen coalescence water injection part (88K) injection propulsion oxygen coalescence injection ship (39J) with a plurality of super high pressure fuel combustion injection propulsion including a theoretical combustion chamber (4Y) air suction flow path.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving 21/60000 streamlined theoretical combustion chambers (4Y) to drive a plurality of oxygen coalescence water injection sections (88K) injection propulsion oxygen coalescence injection ship (39J).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods to make an oxygen coalescence air injection part (88A) injection propulsion airplane that is 21/60000 streamlined theoretical combustion chamber (4Y) multiple ultrahigh pressure fuel combustion injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Various energy storage cycle coalescence engines and coalescence methods for making an oxygen coalescence air injection part (88A) injection propulsion airplane that is propelled by multiple ultrahigh pressure fuel combustion injection.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for a theoretical combustion chamber (4Y) oxygen coalescence air injection part (88A) injection propulsion airplane with multiple ultrahigh pressure fuel combustion injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for an oxygen coalesced air injection part (88A) injection propulsion airplane with multiple ultrahigh pressure fuel combustion injection propulsion including a streamlined theoretical combustion chamber (4Y) air suction flow path of 21/60000.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) Oxygen coalesced air injection part (88A) including a plurality of ultra-high pressure fuel combustion injection propelled including air suction flow paths (88A) Various energy storage cycle coalescing engines and coalescence methods for making an injection propulsion airplane.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for making an oxygen coalesced air injection part (88A) injection propulsion airplane that is equipped with a theoretical combustion chamber (4Y) air suction flow path and includes multiple ultrahigh pressure fuel combustion injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Streamlined Theoretical Combustion Chamber (4Y) Oxygen Combined Air Injection Unit (88A) Injection Propulsion Oxygen Combined Injection Plane (39L) Driven by Plural Ultra High Pressure Fuel Combustion Injection Propulsion including Air Suction Channel Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, streamlined theoretical combustion chamber (4Y) 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) including a plurality of ultrahigh pressure fuel combustion injection propulsion including air suction channels.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, streamlined Various energy storage cycle coalescence engines and coalescence methods for driving oxygen coalescence air injection part (88A) injection propulsion oxygen coalescence jet airplane (39L) with a theoretical combustion chamber (4Y) air suction flow path including multiple ultrahigh pressure fuel combustion injection propulsion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods for driving 21/60000 streamlined theoretical combustion chambers (4Y) to drive a plurality of oxygen coalescence air injection sections (88A) injection propulsion oxygen coalescence injection airplanes (39L).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving the theoretical expansion engine (3P) and propeller (7A) rotating airplane as theoretical combustion chamber (4Y) ultra high pressure fuel combustion to 21/60000.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a theoretical expansion engine (3P) and propeller (7A) rotating airplane as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which the combustion chamber (4Y) is driven by a theoretical expansion engine (3P) as an ultra-high pressure fuel combustion and is driven by a propeller (7A) rotating airplane.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engines and coalescence methods in which a theoretical combustion chamber (4Y) is driven to 21/60000, and a plurality of theoretical expansion engines (3P) are driven as a high pressure fuel combustion to drive a propeller (7A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescing engines and coalescence methods for driving a plurality of theoretical expansion engines (3P) and propellers (7A) for multiple revolution airplanes as ultrahigh pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which combustion chamber (4Y) ultrahigh pressure fuel combustion is driven by multiple theoretical expansion engines (3P) and propeller (7A) multiple revolution airplanes.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Ultra High Pressure Fuel Combustion Theoretical Expansion Engine (3P) Multiple Drives Propeller (7A) Multi-Rotation Oxygen Combined Propeller Plane (39M) Various Energy Conservation Cycle Combined Engine and Combined Method .
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), 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) multi-rotation oxygen coalescence propeller airplanes (39M) as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which a combustion chamber (4Y) ultrahigh pressure fuel combustion is driven by a plurality of theoretical expansion engines (3P) and a propeller (7A) multi-rotation oxygen coalescence propeller airplane (39M).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) as a combustion chamber (4Y) ultrahigh pressure fuel combustion to 21/60000 and driving a propeller (7A) rotating oxygen coalescence propeller airplane (39M).
横型全動翼水重力タービン(R)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。
Horizontal full-blade hydrogravity turbine (R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low cost electric power production, and compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000, a theoretical expansion engine (3P) driven rotor blade (7B) as an ultra-high pressure fuel combustion, and various energy storage cycle coalescence engines and coalescence methods for driving an airplane.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) A theoretical expansion engine (3P) driven rotor blade (7B) as an ultra-high pressure fuel combustion, and various energy storage cycle coalescing engines and coalescence methods for driving an airplane.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method in which the combustion chamber (4Y) ultra-high pressure fuel combustion rotates the theoretical expansion engine (3P) drive rotor blade (7B) to drive the airplane.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) of 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive rotor blades (7B) Various energy storage cycle coalescence engines and coalescence methods that drive the aircraft by multiple revolutions.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P), multiple drive rotor blades (7B), and various energy storage cycle coalescence engines and coalescence methods that drive the aircraft by multiple revolutions as ultra-high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Various energy storage cycle coalescence engine and coalescence method for driving an airplane by rotating a theoretical expansion engine (3P), multiple drive rotor blades (7B) as ultrahigh pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) Ultra-high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive rotor blade (7B) Various energy storage cycle coalescence engine driven by multiple rotation and oxygen combined rotor blade airplane (39P) Merge method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Various energy storage cycle coalescence engines and coalescence methods for driving a theoretical expansion engine (3P), multiple drive rotor blades (7B), and an oxygen coalescence rotor blade airplane (39P) as ultrahigh pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultrahigh pressure fuel combustion with a theoretical expansion engine (3P), multiple drive rotor blades (7B), and multiple oxygen rotor blade airplanes (39P).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Various Energy Conservation Cycle Combined Engine and Combined Method for Rotating Theoretical Expansion Engine (3P) Drive Rotor (7B) and Oxygen Combined Rotor Airplane (39P) as Ultra High Pressure Fuel Combustion .
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 Ultra high pressure fuel combustion Theoretical expansion engine (3P) drive propeller (7A) Rotating oxygen uniting air injection unit (88A) Various energy storage cycle uniting engine driving unit Method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), 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 unit (88A) injection propulsion airplane.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method for driving a theoretical expansion engine (3P) drive propeller (7A) and driving an oxygen coalescence air injection part (88A) injection propulsion airplane as combustion chamber (4Y) ultrahigh pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical Combustion Chamber (4Y) Super High Pressure Fuel Combustion Theoretical Expansion Engine (3P) Multiple Drive Propeller (7A) Multiple Rotating Oxygen Combined Air Injection Unit (88A) Injection Propulsion Plane Driven Various Energy Conservation Cycle Combined Engine And coalescing method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P), multiple drive propeller (7A), and oxygen combined air injection unit (88A) as a super high pressure fuel combustion.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods for driving a combustion chamber (4Y) ultra-high pressure fuel combustion with a theoretical expansion engine (3P), multiple drive propeller (7A), multiple rotations, and an oxygen coalescence air injection unit (88A) injection propulsion airplane drive.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) ultra-high pressure fuel combustion theoretical expansion engine (3P) multiple drive propeller (7A) multiple rotation oxygen combined air injection unit (88A) injection propulsion oxygen combined propeller injection airplane (39N) drive Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) Theoretical expansion engine (3P) multi-drive propeller (7A) as a super-high pressure fuel combustion multiple oxygen storage air injection unit (88A) injection propulsion oxygen combination propeller injection airplane (39N) driven various energy storage cycle combination engine and combination Method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Super-high pressure fuel combustion Theoretical expansion engine (3P) Multiple drive propeller (7A) Multiple rotations and oxygen combination air injection unit (88A) Injection propulsion oxygen combination propeller injection plane (39N) Organization and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) As the ultra high pressure fuel combustion, the theoretical expansion engine (3P) drive propeller (7A) rotates, and the oxygen combined air injection part (88A) injection propulsion oxygen combined propeller injection airplane (39N) drives Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 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 theoretical expansion engine (3P ) Various energy storage cycle coalescence engines and coalescence methods to be driven.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion Various high-pressure high-temperature combustion gas (50) is injected from an open combustion gas injection nozzle (6Y) and driven by a theoretical expansion engine (3P). And coalescing method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various kinds of energy storage for driving a theoretical expansion engine (3P) by injecting a high-pressure high-temperature combustion gas (50) from a high-pressure high-temperature combustion gas control valve (5a) open combustion gas injection nozzle (6Y) as combustion chamber (4Y) ultrahigh-pressure fuel combustion Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 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 engine and coalescence method for driving a theoretical expansion engine (3P) that reversely inverts the lower expansion blade (8e) on the horizontal axis (1h).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High pressure and high temperature combustion gas control valve (5a) for high pressure fuel combustion (5a) High pressure and high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d) and the lower expansion blade (8e) Horizontal axis (1h) Theoretical expansion engine (3P) that is doubly reversed, and various energy storage cycle coalescence engines and coalescence methods that are driven.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from combustion chamber (4Y) ultra high pressure fuel combustion from open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade ( 8e) Various energy storage cycle coalescence engines and coalescence methods for driving the theoretical expansion engine (3P) that reverses the horizontal axis (1h).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 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 the lower expansion blade (8e) to the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High pressure and high temperature combustion gas control valve (5a) for high pressure fuel combustion (5a) High pressure and high temperature combustion gas (50) is injected from the open combustion gas injection nozzle (6Y), and the upper expansion blade (8d) and the lower expansion blade (8e) Various energy storage cycle coalescence engines and coalescence methods for driving a horizontal expansion shaft (1h), a counter-rotating assembly turbine blade (8f), and a theoretical expansion engine (3P).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory High pressure high temperature combustion gas control valve (5a) High pressure high temperature combustion gas (50) is injected from combustion chamber (4Y) ultra high pressure fuel combustion from open combustion gas injection nozzle (6Y), and upper expansion blade (8d) lower expansion blade ( 8e) Various energy storage cycle coalescence engines and coalescence methods for driving the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 theoretical combustion chamber (4Y) high pressure high temperature combustion gas control valve (5a) as high pressure fuel combustion increases open air suction combustion amount, high pressure high temperature combustion gas (50) is injected from combustion gas injection nozzle (6Y) Then, various energy storage cycle coalescence engines and coalescence methods for driving the upper expansion blade (8d) and the lower expansion blade (8e) to the theoretical expansion engine (3P) of the horizontal axis (1h) counter rotating assembly turbine blade (8f) assembly.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of 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 storage cycle coalescence engine and coalescence to open a theoretical expansion engine (3P) expanding 380 degrees in the circumferential direction Method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) A high-pressure high-temperature combustion gas control valve (5a) as an ultrahigh-pressure fuel combustion (5a) 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods that make the combustion chamber (4Y) ultrahigh pressure fuel combustion into a high-pressure high-temperature combustion gas control valve (5a) open theoretical expansion engine (3P) that expands and expands 380 degrees in the circumferential direction.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of 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 storage to make the theoretical expansion engine (3P) open maximum expansion speed by 380 degrees expansion in the circumferential direction Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion, various energy storage cycle coalescence engines and coalescence methods to make the theoretical expansion engine (3P) open at a maximum drive speed by 380 degrees expansion in the circumferential direction.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engine and coalescence method to make the combustion chamber (4Y) ultrahigh pressure fuel combustion high pressure high temperature combustion gas control valve (5a) open theoretical expansion engine (3P) with maximum expansion speed by expansion of 380 degrees in the circumferential direction .
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air Theoretical combustion chamber (4Y) to be 21/60000 High pressure high temperature combustion gas control valve (5a) as super high pressure fuel combustion Opened in the theoretical expansion engine (3P) with maximum expansion speed by 380 degree expansion and counter rotation Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) High-pressure and high-temperature combustion gas control valve as ultra-high pressure fuel combustion (5a) Opening in the circumferential direction 380 degree expansion and theoretical expansion engine (3P) for maximum driving speed by double reversal Method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) Ultra high pressure fuel combustion High pressure high temperature combustion gas control valve (5a) Opening in the circumferential direction 380 degree expansion and theoretical expansion engine (3P) that maximizes driving speed by double reversal and combined with various energy storage cycles Organization and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely inexpensive power generation electric production, compresses the compressed volume of air 21/60000 Theoretical combustion chamber (4Y) High-pressure high-temperature combustion gas control valve (5a) as an ultra-high pressure fuel combustion Open energy 380 degree expansion expansion and double expansion Theoretical expansion engine (3P) to reverse inversion Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) 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 the liquid together with 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a), and various energy storage cycle coalescing engines and coalescence methods that form a theoretical combustion chamber (4Y) in which the compression volume is 21/60000 volume of air compression or the like, and the ultrahigh pressure compression fuel injection combustion is performed.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Various energy storage cycle coalescence engine and coalescence method that compresses liquid together with fuel (1c) and water (52a), and makes the compression volume a theoretical combustion chamber (4Y) that burns and burns ultra-high-pressure compressed fuel with air compression of 21/60000 volume, etc. .
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) 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 with water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a), and various energy storage cycle coalescence engines and coalescence methods that are heated to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Various energy storage cycle coalescence engines and coalescence methods that compress liquid with fuel (1c) and water (52a) and heat to the optimum temperature on the inner wall of the theoretical combustion chamber (4Y).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) 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) Combined with 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 (52a) Organization and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives liquid fuel (1c) by receiving cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D) of extremely low-cost power generation electricity production ) And water (52a) and liquid compression 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) Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Receives liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely cheaply generated electricity, and produces liquid Liquid oxygen compression with fuel (1c) and water (52a) is performed 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electric power generation, receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), and liquid fuel ( 1c) and water (52a) are compressed with liquid, 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 for injecting together.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) 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, heating oxygen control to the optimum temperature Various types of the valve (24D) + fuel control valve (25b) + superheated steam control valve (25) are made into a theoretical combustion chamber (4Y) that heats the outer superheated steam (50) by burning at 3000 ° C. or more near the center of the open oxygen fuel burner. Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) is opened to the theoretical combustion chamber (4Y) that heats the outer superheated steam (50) by burning at 3000 ° C or more near the center of the open oxygen fuel burner. Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heating oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) to the temperature Theoretical combustion chamber for heating 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) 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, heating oxygen control to the optimum temperature 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 decomposition.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Open the oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) near the center of the oxygen fuel burner. Various energy storage cycle coalescence engine and coalescence method to make theoretical combustion chamber (4Y) aimed at decomposition electrolysis.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) open near the center of the oxygen fuel burner Heating the peripheral superheated steam (50) by burning more than 3000 ° C near the center Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at suction pyrolysis electrolysis.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) 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, heating oxygen control to the optimum temperature 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 coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at the combustion with increased cracked oxygen hydrogen.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply facility (3D), which is extremely inexpensive power generator, and heats it to the optimum temperature Open the oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) near the center of the oxygen fuel burner. Various energy storage cycle coalescing engine and coalescence method for a theoretical combustion chamber (4Y) aiming at increased combustion of electrolysis oxygen hydrogen hydrogen.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam and is optimal. Heated oxygen control valve (24D) + fuel control valve (25b) + superheated steam control valve (25) open near the center of the oxygen fuel burner Heating the peripheral superheated steam (50) by burning more than 3000 ° C near the center Various energy storage cycle coalescence engine and coalescence method to make the theoretical combustion chamber (4Y) aiming at the increased combustion by suction pyrolysis electrolysis oxygen hydrogen.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + superheated steam 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 coalescing 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) As a streamline type, various energy storage cycle coalescing engines and coalescence methods in which a plurality of in-line combustion gas (49) oxygen merging water injection part (88K) for accelerating injection are provided.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( Various energy storage cycle coalescing engines and coalescence methods in which a combustion gas (49) injection accelerating injection oxygen merging water injection part (88K) having a plurality of in-line combustion streams (4Y) as a streamline type.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which the combustion chamber (4Y) is a streamlined type and a plurality of in-line combustion gas (49) oxygen acceleration water injection parts (88K) for injection acceleration injection.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with a series of combustion gases (49Y) and oxygen combined water injection part (88K) using (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam heated at optimum temperature Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a series of combustion gas (49Y) and oxygen combined fuel injection unit (88K) that uses oxygen + fuel + superheated steam on the inner wall and combustion flow inner wall (5d) at the optimum temperature Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Oxygen combined water injection unit (5Y) with an oxygen + fuel + superheated steam (4Y) inner wall and combustion flow inner wall (5d) heated at an optimal temperature with a combustion chamber (4Y) having a streamlined combustion chamber (4). 88K), various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) Oxygen combined water with the combustion gas (49) in the form of a streamline and (4Y) inner wall or combustion flow inner wall (5d) with oxygen + fuel + superheated steam heated to the optimum temperature for combustion in the theoretical combustion chamber (4Y), etc. Various energy storage cycle coalescence engine and coalescence method in the injection section (88K).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a plurality of in-line combustion gases (49), oxygen (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make the theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engine and coalescence method in the coalescence water injection part (88K).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) is streamlined and combustion gas (49) is provided in series. (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated at optimum temperature, theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injection section (88K).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), theoretical combustion chamber (4Y) is a streamlined combustion gas (49) comprising a plurality of series combustion gas (49Y) and (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 part (88K) for combustion or the like.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), oxygen + on each inner wall Various energy storage cycles in which the fuel + superheated steam is heated to the optimum temperature and the oxygen combustion burner (88K) is used for the oxygen combustion burner at the center of the theoretical combustion chamber (4Y) and burns at 3000 ° C or more for superheated steam suction pyrolysis electrolysis Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, and the energy in the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner is burned at 3000 ° C for more than 3000 ° C, and the oxygen combined water injection part (88K) is aimed at superheated steam suction pyrolysis electrolysis Storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the chamber, and the oxygen combustion burner near the center of the theoretical combustion chamber (4Y) burns more than 3000 ° C into the oxygen combined water injection part (88K) aimed at superheated steam suction pyrolysis electrolysis Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), 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 make an oxygen coalescence water injection part (88K) aimed at superheated steam suction pyrolysis electrolysis oxygen hydrogen increase combustion Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, near the center of the theoretical combustion chamber (4Y), oxygen fuel burner burned at 3000 ° C or more, superheated steam suction pyrolysis electrolysis oxygen hydrogen water injection part aimed at increasing oxygen hydrogen combustion (88K) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion of more than 3000 ° C with superheated steam suction pyrolysis electrolysis Oxygen hydrogen increased combustion target oxygen combined water injection unit (88K) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) is heated and injected by combustion in the vicinity of the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner at 3000 ° C or more. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature to heat the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam pool (95c) by burning more than 3000 ° C near the center of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection part (88K) for injection.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber, and the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner burns at a temperature of 3000 ° C. or more. ) And an energy storage cycle coalescence engine and a coalescence method using an oxygen coalescence water injection unit (88K) that injects heat.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, 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 and includes the superheated steam received from 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 heats and jets steam (50).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) 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, air (28a) suction injection Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence water injection section (88K) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) at the optimum flow location.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) 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) + electricity, and 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) even at the optimum location of the suction jet flow.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam, and air (28a) Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence water injecting section (88K) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) even at the optimum location of the suction jet flow.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined water injection part ( 88K), various energy storage cycle coalescing engines and coalescence methods in which the air inlet is expanded forward.
横型全動翼水重力タービン(8R)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。
Horizontal all-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined water injection Various energy storage cycle coalescing engine and coalescence method in which the air inlet is expanded to the front (88K).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods in which the coalescing water injection section (88K) is used to enlarge the air inlet forward.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) of extremely low-cost power generation electricity production, oxygen combined water injection part ( 88K), various energy storage cycle coalescing engines and coalescence methods for enlarging the air inlet forward, approaching a straight line, and injecting the maximum amount of bubbles to the bottom of the ship.
横型全動翼水重力タービン(8R)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。
Horizontal all-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined water injection Various energy storage cycle coalescing engine and coalescence method, in which the air inlet is enlarged forward and close to a straight line, and bubbles are maximally injected onto the bottom of the ship.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescing engine and coalescence method in which the coalescing water injection part (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.
横型全動翼水重力タービン(8R)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。
Horizontal all-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is extremely inexpensive power generation electricity production, 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) As a streamline type, a plurality of energy storage cycle coalescence engines and coalescence methods in which a plurality of combustion gas (49) injection accelerating injection oxygen merging air injection portions (88A) are provided in series.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( Various energy storage cycle coalescing engines and coalescence methods in which a combustion gas (49) injection accelerating injection oxygen merging air injection part (88A) having a plurality of series in a streamlined form is used as 4Y).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Various energy storage cycle coalescence engines and coalescence methods in which the combustion chamber (4Y) is a streamlined type and a plurality of in-line combustion gas (49) oxygen acceleration air injection portions (88A) for injection acceleration injection.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with various oxygen gas injection parts (88A) that use oxygen gas + fuel + superheated steam on the inner wall (4Y) and combustion flow inner wall (5d) at an optimum temperature. Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined type of combustion gas (49) provided in series with the oxygen combined air injection unit (88A) that uses the oxygen + fuel + superheated steam on the inner wall (5Y) and the combustion flow inner wall (5d) with the optimum temperature heating. Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Oxygen combined air injection unit that uses the combustion chamber (4Y) as a streamlined combustion gas (49) with a plurality of in-series combustion gases (49) and the oxygen + fuel + superheated steam on the inner wall (5Y) and combustion flow inner wall (5d) at an optimal temperature ( 88A) various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) from electricity + liquid air cold heat + superheated steam temperature supply equipment (3D), which is extremely inexpensive power generation electric manufacturing, theoretical combustion chamber (4Y) A streamlined combustion gas (49) with a plurality of in-line combustion gas (4Y) and oxygen combined air (4Y) to the theoretical combustion chamber (4Y) combustion, etc. by heating the oxygen + fuel + superheated steam on the inner wall or combustion flow inner wall (5d) at the optimum temperature Various energy storage cycle coalescence engine and coalescence method in the injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), theoretical combustion chamber ( 4Y) is a streamlined combustion gas (49) with a plurality of in-line combustion gases (49), oxygen (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated to the optimum temperature to make the theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engine and coalescence method in the coalescence air injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), which is an extremely inexpensive power generation electric manufacturing, theory Combustion chamber (4Y) is streamlined and combustion gas (49) is provided in series. (4Y) inner wall and combustion flow inner wall (5d) oxygen + fuel + superheated steam is heated at optimum temperature, theoretical combustion chamber (4Y) combustion, etc. Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), theoretical combustion chamber (4Y) is a streamlined combustion gas (49) comprising a plurality of series combustion gas (49Y) and (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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), oxygen + on each inner wall Various energy storage cycles in which 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 form an oxygen coalesced air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to an optimal temperature, and the energy is made into an oxygen coalescence air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis by burning over 3000 ° C near the theoretical combustion chamber (4Y) oxygen fuel burner Storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion at 3000 ° C or higher to superheated steam suction pyrolysis electrolysis target oxygen combined air injection part (88A) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), 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 form an oxygen coalescence air injection unit (88A) aimed at superheated steam suction pyrolysis electrolysis oxygen hydrogen augmentation combustion Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature, near the center of the theoretical combustion chamber (4Y), oxygen fuel burner burns at 3000 ° C or higher, superheated steam suction pyrolysis electrolysis oxygen hydrogen injection unit aimed at increasing oxygen hydrogen combustion (88A) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. Oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber (4Y) near the center of the oxygen fuel burner. Combustion of more than 3000 ° C with superheated steam suction pyrolysis electrolysis Oxygen hydrogen increased combustion target oxygen combined air injection unit (88A) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R), 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), oxygen + on each inner wall The fuel + superheated steam is heated at the optimum temperature, and the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam reservoir (95c) is heated and injected by combustion in the vicinity of the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner at 3000 ° C or more. Various energy storage cycle coalescence engines and coalescence methods in an oxygen coalescence air injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, Oxygen + fuel + superheated steam is heated to the optimum temperature to heat the superheated steam (50) in the combustion flow inner wall (5d) outer peripheral superheated steam pool (95c) by burning more than 3000 ° C near the center of the theoretical combustion chamber (4Y). Various energy storage cycle coalescence engines and coalescence methods in the oxygen coalescence air injection section (88A) for injection.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Receives cheap liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), which is extremely inexpensive power generation electricity production, respectively. The oxygen + fuel + superheated steam is heated at the optimum temperature on the inner wall of the combustion chamber, and the theoretical combustion chamber (4Y) near the center of the oxygen fuel burner burns at a temperature of 3000 ° C. or more. ) And an energy storage cycle coalescence engine and a coalescence method in an oxygen coalesced air injection section (88A) for heating and spraying.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receive cheap liquid oxygen (5K) + superheated steam, 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 and includes the superheated steam received from 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 heats and jets steam (50).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) 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, air (28a) suction injection Various energy storage cycle coalescence engines and coalescence methods in which an oxygen coalescence air injection section (88A) that combusts and injects a plurality of streamline type theoretical combustion chambers (4Y) at the optimum flow location.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) 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) + electricity, and 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 optimum location of the suction injection flow.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity + superheated steam, and 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.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) 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, oxygen combined air injection part ( 88A), various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined air injection Various energy storage cycle coalescing engines and coalescence methods that enable vertical ascent and descent by rotating the part (88A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods that enable vertical ascent and descent by rotating the coalescence air injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) 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, oxygen combined air injection part ( 88A), various energy storage cycle coalescence engines and coalescence methods that enable reverse injection.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation. Electricity + liquid air cooling + superheated steam temperature supply equipment (3D) receives cheap liquid oxygen (5K) + electricity, oxygen combined air injection Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + electricity + superheated steam from electricity + liquid air cold heat + superheated steam thermal supply equipment (3D), oxygen Various energy storage cycle coalescence engines and coalescence methods that enable reverse injection by rotating the coalescence air injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal all-blade water gravity turbine (8R), which is an extremely inexpensive generator for electricity generation, receives low-priced liquid oxygen (5K) + superheated steam from electricity + liquid air cold heat + superheated steam temperature supply facility (3D), oxygen combined air Various energy storage cycle coalescence engines and coalescence methods that enable the reverse injection by rotating the injection section (88A).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is 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 aiming inversely proportional to pressure to a central short compressor blade.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescing engines and coalescence methods using an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral long compression blade to a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is 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 aimed inversely proportional to pressure.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the 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 a long compression blade into a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is 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 a target outer peripheral long compression blade into a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycle coalescence engine and coalescence method for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade aiming inversely proportional to pressure to a central short compressor blade.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses a long compression blade into a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods for producing compressed heat exchange superheated steam by sucking air as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral large compression blade to a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), cheap electricity + hot water (52b) + superheated steam, and gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade whose volume is inversely proportional to the pressure to a central short compressor blade, and various energy storage cycle coalescence engines and coalescence engines that produce compressed heat exchange superheated steam by sucking air Method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Various energy storage cycles in which superheated steam is produced with an intake-compression compressed-air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade that is inversely proportional to pressure to a central short compressor blade Merger engine and merger method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the 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 a long compression blade into a central short compression blade.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure Various energy storage cycle coalescence engines that produce superheated steam with an intake-compression compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from a target outer peripheral long compression blade to a central short compression blade, and Merge method.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is 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 into the compressed compressed air heat exchanger (2Y) to produce and supply superheated steam (3D) Various energy storage cycle coalescence engine and coalescence method to be supplied to
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure Various types of energy storage for supplying superheated steam to the production and supply equipment (3D) using the intake-compression compressed air heat exchanger (2Y) as an electrically driven theoretical gas compressor (3T) that compresses from the large compressor blades to the central short compressor blades Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure As an electrically driven theoretical gas compressor (3T) that compresses from the target outer peripheral large compression blade to the central short compression blade, air is supplied to the production supply facility (3D) by the intake compression air heat exchanger (2Y). Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) Extremely inexpensive power generation electric manufacturing, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + hot water (52b), gas volume is Production and supply equipment of 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 to a central short compressor blade aiming inversely proportional to pressure Various energy storage cycle coalescence engines and coalescence methods supplied to (3D).
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade hydrogravity turbine (8R), an extremely inexpensive generator for electric power generation, receives electricity from electricity + liquid air cold heat + superheated steam heat supply equipment (3D), and the outer circumference of the gas volume is inversely proportional to the pressure As an electrically driven theoretical gas compressor (3T) that compresses from a large compressor blade to a central short compressor blade, air is supplied to a production supply facility (3D) by a suction compressed air heat exchanger (2Y). Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electricity production, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheap electricity + superheated steam, gas volume is inversely proportional to pressure As the electric driven theoretical gas compressor (3T) that compresses from the target outer peripheral large compressor blade to the central short compressor blade, air is sucked in and compressed compressed air heat exchanger (2Y) produces and supplies compressed air + superheated steam (3D) Various energy storage cycle coalescence engine and coalescence method to be supplied to
横型全動翼水重力タービン(8R)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。
Horizontal type full-blade water gravity turbine (8R) is an extremely inexpensive generator for electric power generation, receives electricity + liquid air cold heat + superheated steam temperature heat supply equipment (3D), cheap electricity + hot water (52b) + superheated steam, and gas As an electrically driven theoretical gas compressor (3T) that compresses from a large outer peripheral compressor blade, whose volume is inversely proportional to the pressure, to a central short compressor blade, air is sucked into the compressed air heat exchanger (2Y) and compressed air + superheated steam Various energy storage cycle coalescence engine and coalescence method to be supplied to the production supply facility (3D).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods configured to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engine and coalescence method for compressing air as a structure to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engines and coalescence methods for compressing air (28a) from the outer periphery to the suction center as a structure to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for heating air (28a) compressed water from the outer periphery to the suction center as a configuration for compressing the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 structure to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence 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 into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods in which water is heated by air (28a) compressed and compressed air heat exchanger (2Y) from the outer periphery to the suction center as a structure to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 and compressed air heat exchanger (2Y) from the outer circumference to the suction center from the outer periphery.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 from the outer periphery.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing superheated steam with a compressed air heat exchanger (2Y) as a configuration to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for producing compressed air + superheated steam with a compressed air heat exchanger (2Y) as a configuration to be compressed into the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 the air.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescing engines and coalescence methods for supplying compressed air + superheated steam production and supply equipment (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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) with a compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large 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 and supply facility (3D) by the compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engines and coalescence methods for supplying liquid air + super high pressure superheated steam production and supply equipment (3D) with a compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engine and coalescence method for supplying to liquid oxygen + liquid nitrogen + super high pressure superheated steam production / supply facility (3D) by compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) Extremely inexpensive power generation electric drive, theoretical gas compressor (3T) with the gas volume complying with pressure inversely proportional to the pressure, from the outer peripheral large compression blade (8) to the central short compression blade (8) Various energy storage cycle coalescence engine and coalescence method to be supplied to electricity + liquid oxygen + liquid nitrogen + super high pressure superheated steam production and supply equipment (3D) by compressed air heat exchanger (2Y) as a structure to be compressed into
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. 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 of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, 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 circumferential direction of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion In addition, 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 circumferential expansion process of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods that increase 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods that increase 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion In the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescence engines and coalescence methods for increasing the amount of fuel injection combustion combustion from a plurality of locations of the fuel pipe (25a) extended upper expansion blade group (8d).
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. Various energy storage cycle coalescence engines and coalescence methods for compressing air with the turbine outer box (77a) in the expansion process of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, Various energy storage cycle coalescence engines and coalescence methods for air compression with the turbine outer box (77a) in the expansion process in the circumferential direction of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D), cheap liquid oxygen (5K) + superheated steam is received and injected and burned, 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.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. 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 box (77a) in a 380 degree expansion process.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, 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 circumferential expansion process of 380 degrees.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, in the expansion process of 380 degrees in the circumferential direction, various energy storage cycle coalescing engines for injecting a plurality of locations of the upper compression blade groups (8d) and the lower expansion blade groups (8e), respectively, with the turbine outer casing (77a), and Merge method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. In the expansion process of 380 degrees, air compression between the upper expansion blade group (8d) and the lower expansion blade group (8e) between the turbine outer box (77a) and the theoretical expansion engine (3P) that increases the amount of fuel injected at a plurality of locations. Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, In the expansion process of 380 degrees in the circumferential direction, various types of energy storage cycle coalescence engines that increase the amount of fuel injected by injection of air at the upper expansion blade group (8d) and the lower expansion blade group (8e) at a plurality of positions with the turbine outer casing (77a). And coalescing method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Thus, in the process of expansion in the circumferential direction of 380 degrees, various types of energy storage are performed in which the amount of injected fuel combustion increases at each of the upper expansion blade group (8d) and the lower expansion blade group (8e) between the air compression and the turbine outer casing (77a). Cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electric power generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives low-priced liquid oxygen (5K), receives fuel injection, and burns in the circumferential direction. During the 380 degree expansion process, fuel is injected and burned from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d), and the lower expansion of each of the upper expansion blade group (8d) is compressed with the turbine outer casing (77a). Blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel combustion at multiple locations.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature heat supply facility (3D), cheap liquid oxygen (5K) + electricity is injected and burned by fuel injection, In the expansion process of 380 degrees in the circumferential direction, fuel is injected and combusted from a plurality of locations in the fuel pipe (25a) and the extended upper expansion blade group (8d), and is compressed between the turbine outer casing (77a) and the upper expansion blade group (8d). Side expansion blade group (8e) Various energy storage cycle coalescence engine and coalescence method for increasing the amount of fuel injected at a plurality of locations.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade hydrogravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cold heat + superheated steam temperature supply equipment (3D) receives cheaper liquid oxygen (5K) + electricity + superheated steam and fuel injection combustion Then, in the expansion process of 380 degrees in the circumferential direction, the fuel pipe (25a) extends the 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 groups (77a). 8d) Lower expansion blade group (8e) Various energy storage cycle coalescing engines and coalescence methods for increasing the amount of fuel injected at a plurality of locations.
横型全動翼水重力タービン(8R)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。
Horizontal full-blade water gravity turbine (8R) is an extremely inexpensive generator for electricity generation, electricity + liquid air cooling + superheated steam temperature supply equipment (3D), cheap liquid oxygen (5K) + superheated steam is received and injected and burned, 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.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)対向同期歯車(4C)直列同回転歯車(4D)回転して複数タービンで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。
Horizontal full-blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet sprayed and accelerated by gravitational acceleration, cylindrical turbine blade group (8A) horizontal axis (16A) counter-synchronous gear (4C) series rotation gear (4D) rotation Various energy storage cycle coalescence engines and coalescence methods for generating power with a plurality of turbines.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)直列同回転歯車(4D)回転して複数タービンで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。
Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water acceleration is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) in-line co-rotating gear (4D) rotates, and power is generated by multiple turbines Various energy storage cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)多数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。
Horizontal full blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravitational acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and various types of cylindrical turbine blade group (8A) generate a lot of power Energy conservation cycle coalescence engine and coalescence method.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)20組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。
Horizontal full blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and 20 sets of cylindrical turbine blade group (8A) generate power Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)40組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。
Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) is rotated, and 40 sets of cylindrical turbine blade group (8A) are generated. Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)80組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。
Horizontal full-blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) is rotated by horizontal axis (16A), and 80 sets of cylindrical turbine blade group (8A) are generated. Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)100組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。
Horizontal full-blade water gravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates and 100 sets of cylindrical turbine blade group (8A) generate power Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)150組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。
Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet accelerated, gravity acceleration accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotated to generate 150 sets of cylindrical turbine blade group (8A) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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タービン翼群(8A)水平軸(16A)回転して円筒タービン翼群(8A)200組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。
Horizontal full blade hydrogravity turbine (8R) Ultra-high pressure vertically under vacuum, water jet is accelerated, gravity acceleration is accelerated, cylindrical turbine blade group (8A) horizontal axis (16A) rotates to generate 200 sets of cylindrical turbine blade group (8A) Various energy storage cycle coalescence engines and coalescence methods.
横型全動翼水重力タービン(8R)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 engines and coalescence methods for driving a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion + jet combustion as an oxygen coalescence water injection unit (88K).
横型全動翼水重力タービン(8R)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 engines and coalescence methods for driving an oxygen coalescence water injection section (88K) as a horizontal full-blade water gravity turbine (8R) power generation electrical product + two rocket combustion + two jet combustion locations.
横型全動翼水重力タービン(8R)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 that drive the oxygen coalescence water injection unit (88K) as a horizontal full blade water gravity turbine (8R) power generation electric product + three rocket combustion + three jet combustion locations.
横型全動翼水重力タービン(8R)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 engine and coalescence method for driving oxygen combined water injection unit (88K) as horizontal full-blade water gravity turbine (8R) power generation electrical product + rocket combustion 4 locations + jet combustion 4 locations.
横型全動翼水重力タービン(8R)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 coalescence water injection part (88K) as horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 5 locations + jet combustion 5 locations.
横型全動翼水重力タービン(8R)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 part (88K) as a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 6 locations + jet combustion 6 locations.
横型全動翼水重力タービン(8R)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 a horizontal all blade water gravity turbine (8R) power generation electric product + rocket combustion + jet combustion as an oxygen coalescence air injection unit (88A).
横型全動翼水重力タービン(8R)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 an oxygen coalescence air injection unit (88A) as a horizontal full-blade water gravity turbine (8R) power generation electrical product + two rocket combustion + two jet combustion locations.
横型全動翼水重力タービン(8R)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 horizontal full-blade water gravity turbine (8R) power generation electric product + three rocket combustion + three jet combustion locations.
横型全動翼水重力タービン(8R)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 coalescing engines and coalescence methods for driving an oxygen coalescence air injection unit (88A) as a horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 4 places + jet combustion 4 places.
横型全動翼水重力タービン(8R)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 coalesced air injection unit (88A) as a horizontal full blade water gravity turbine (8R) power generation electric product + rocket combustion 5 locations + jet combustion 5 locations.
横型全動翼水重力タービン(8R)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 coalescing engines and coalescence methods for driving the oxygen coalesced air injection unit (88A) as horizontal full-blade water gravity turbine (8R) power generation electric product + rocket combustion 6 places + jet combustion 6 places.