JP4604274B2 - Hydrogen-oxygen generator with water heater - Google Patents
Hydrogen-oxygen generator with water heater Download PDFInfo
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- JP4604274B2 JP4604274B2 JP2004259028A JP2004259028A JP4604274B2 JP 4604274 B2 JP4604274 B2 JP 4604274B2 JP 2004259028 A JP2004259028 A JP 2004259028A JP 2004259028 A JP2004259028 A JP 2004259028A JP 4604274 B2 JP4604274 B2 JP 4604274B2
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/14—Combined heat and power generation [CHP]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
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Description
本発明の小型発電機は個人が各家庭で各法人が会社で利用出来、発電後環境に害になる物質を何一つ残さない理想の発電機であり、燃料の液体水素、液体酸素をガス化して燃焼させ発電した後に残った水蒸気ガスはそのまま温水にして利用する。 The small power generator of the present invention is an ideal power generator that can be used by individuals at homes and corporations at the company, and does not leave any substances that are harmful to the environment after power generation. The steam gas remaining after combustion and power generation is used as it is as warm water.
従来の発電方法は個人で発電する事等考えられず、大手発電会社から配電を受けるのみで、個人ではどうにもならなかったし、その上料金に振り回された。The conventional power generation method could not be considered as individual power generation, it only received power distribution from a major power generation company, and it did not do anything for the individual, and was further swayed by charges.
従来の発電について個人に対する任意性は全ったく無ったが、安全性は十分あり、今は発電の自由性はあるが自家発電の安全は自己責任であり、自由で簡便な方法それは、水素酸素系ロケットエンジン、特に自動車用水素酸素系ロケットエンジン式の発電と排気ガスの主成分ガスである水蒸気ガスを利用する方法である。 There is no voluntary personality for conventional power generation, but safety is sufficient, and now there is freedom of power generation, but the safety of private power generation is self-responsibility, a free and simple method. This is an oxygen-based rocket engine, particularly a hydrogen-oxygen-based rocket engine type power generation for automobiles, and a method using steam gas which is a main component gas of exhaust gas.
澤田 昌治 特許出願済 「水素酸素系自動車用ロケットエンジン」Shoji Sawada Patent applied for "Hydrogen oxygen vehicle rocket engine"
従来の電力は大手発電会社から100%配電されていたが、小口のちょっとした電力使用にも法的規制があり確かに安全ではあるが料金が大変割高であり、今は全ての電力を電力会社に依存する事には少し抵抗があり、そこで小口の電力を自前したくなり、この要求に応えるのが小型発電機である。 Conventional power was distributed 100% by a major power generation company, but there is a legal regulation on the use of small amount of power, and it is certainly safe, but the price is very expensive, and now all power is transferred to the power company. There is a little resistance to reliance, and there is a small generator that responds to this demand.
本発明の小型発電機は液体水素、液体酸素を気化して爆発使用する為、発電後に熱水蒸気が生じ、水蒸気はそのまま温水機の湯となり、後に不要な物質を何一つ残さない大変環境に優れた発電機である。 Since the small power generator of the present invention vaporizes liquid hydrogen and liquid oxygen and uses it exploding, heat steam is generated after power generation, and the steam becomes hot water as it is, and it is excellent in a very environment that does not leave any unnecessary substances later. It is a generator.
本発明は発電を何処の場所でも出来、発電後環境汚染を起こす物質を何一つ残さない事を特徴とする。 The present invention is characterized in that power generation can be performed anywhere, and no substances that cause environmental pollution after power generation are left behind.
液体水素、液体酸素を液化した水素ガス、酸素ガスは爆発燃焼室タンク内で爆発を起こし、生成した高温高圧高速度ガスは直線状ノズル管内にある花形プロペラの羽根を高速度回転させ、花形プロペラの元軸も高速度回転させ、花形プロペラの元軸に繋がる発電機の回転子を高速度回転させる為、多量の電力が得られ、更に発電の仕事を済ませた高温高圧水蒸気ガスの一部は暖房用スチ−ム水蒸気としても利用出来、一部は洗浄用水蒸気としても利用出来、主流は水槽水の中に放出され、水槽水は温められて温水と成り、水槽水の温度をより一層上げるには発電された電力と水槽中のヒ−タを利用し、何も後に残らない利用度の高い発電機である。 Liquid hydrogen, hydrogen gas obtained by liquefying liquid oxygen, and oxygen gas explode in the explosion combustion chamber tank, and the generated high-temperature, high-pressure, high-speed gas rotates the propeller blades in the linear nozzle tube at high speed, causing the flower-shaped propeller to rotate. Rotating the main shaft of the generator at a high speed and rotating the rotor of the generator connected to the main shaft of the flower-shaped propeller at a high speed, a large amount of power was obtained, and part of the high-temperature and high-pressure steam gas that completed the power generation work It can also be used as steam for heating, and part of it can also be used as cleaning steam, the mainstream is released into the aquarium water, the aquarium water is warmed to become warm water, and the temperature of the aquarium water is further increased Is a high-utility generator that uses the generated power and the heater in the water tank, leaving nothing behind.
発電機能をコンパクトにして、しかも仕事をした後に環境変化に何の支障も起こさせない物質を燃料に利用する方法である。 In this method, the power generation function is made compact, and a material that does not cause any trouble to environmental changes after work is used as fuel.
使用燃料は人間に一切害を与えない物質を選び、次にその物質が大量に得られ、安全でコストが安い条件が必要で、実際コスト面で現状では問題が有るが、いずれ量産されるようになれば安価になると思われます。安全面では構造的にいくらでも改良工夫されるが、人間に害にならない物質を扱う事が必要である。 The fuel used is a substance that does not cause any harm to humans. Next, it is necessary to obtain a large amount of the substance, and there must be safe and low-cost conditions. It will be cheaper if it becomes. In terms of safety, any number of structural improvements can be made, but it is necessary to handle substances that are not harmful to humans.
以下本発明に係わる水素酸素系小型発電機及び温水器を図面で説明する。
図1の様に爆発燃焼室タンク1は略電球形状をし、萎んだ方向に太めのノズル管5があり、更にノズル管6は細くなり、一方電球型の頭方向の膨らんだ部分に水素ガス、酸素ガスの噴射口2、3があり、2、3から液体水素、液体酸素より液化された水素ガス、酸素ガスが連続噴射し、その量は水素ガス:酸素ガス=2:1、両噴射口2、3の中間点に点火プラグ4が設置され、プラグ4が点火されると爆発燃焼室タンク1内で連続爆発が起き、発生した高温高圧水蒸気ガスa1はノズル管5へ流れ、更にノズル効果でノズル管6内でより高温高圧高速度水蒸気ガスa2となる。Hereinafter, a hydrogen-oxygen-based small generator and a water heater according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the explosive combustion chamber tank 1 has a substantially bulb shape, a thick nozzle tube 5 in the deflated direction, and the nozzle tube 6 becomes thinner, while hydrogen gas appears in the bulb-shaped bulge in the head direction. There are oxygen gas injection ports 2 and 3, liquid hydrogen, hydrogen gas liquefied from liquid oxygen, and oxygen gas are continuously injected from 2 and 3, the amount of which is hydrogen gas: oxygen gas = 2: 1, both injections An ignition plug 4 is installed at an intermediate point between the ports 2 and 3, and when the plug 4 is ignited, a continuous explosion occurs in the explosion combustion chamber tank 1, and the generated high-temperature and high-pressure steam gas a 1 flows to the nozzle pipe 5, The nozzle effect results in a higher temperature, higher pressure, and higher speed steam gas a 2 in the nozzle tube 6.
ラバルノズル管6の内径はラバルノズル管5の内径より細く、ノズル効果により速度はa2>a1つまり高温高速度水蒸気ガス流a2>高温高圧水蒸気ガス流a1 となり、更に2段のノズル効果でラバルノズル管6内の速度は一段と速くなり、ラバルノズル管6にある花形プロペラA1,B1,C1 はラバルノズル管6に触れる事なく高温高速度水蒸気ガス流a2を受けて高速度回転し、花形プロペラA1,B1,C1の高速度回転によって花形プロペラの回転中心軸A 2,B2,C2も高速度回転する。The inner diameter of Rabaruno nozzle tube 6 is narrower than the inner diameter of Rabaruno nozzle tube 5, the speed by the nozzle effect a 2> a 1, that the hot high velocity steam gas stream a 2> high-temperature high-pressure steam gas stream a 1, and the further two-stage nozzle rate of Rabaruno nozzle tube 6 in effect becomes further higher, flower propeller a 1, B 1, C 1 in Rabaruno nozzle tube 6 receives the hot high velocity steam gas stream a 2 without touching the Rabaruno nozzle tube 6 and high-speed rotation, flower propeller a 1, B 1, the rotation axis a 2 of flower propeller by the high speed rotation of the C 1, B 2, C 2 is also high rotation speed.
図2、3の様に花形プロペラの回転中心軸B 2 ,C2のプロペラ側と反対側の端にギヤB3,C3を設け、B3,C3よりギヤ比の小さいギヤB4,C4を噛み合わせ、より高速度回転軸B5,C5を得、軸A2,B5,C5は3基の発電機の回転子に繋がって電気を起こし、必要以上の電気が出来れば蓄電器に蓄電するか、噛み合わせギヤを外すか、爆発用燃料供給を中止するかである。As shown in FIGS. 2 and 3 , gears B 3 and C 3 are provided at the ends of the rotation center axes B 2 and C 2 of the flower-shaped propeller opposite to the propeller side, and the gear B 4 having a smaller gear ratio than B 3 and C 3 , engaging the C 4, more give speed rotary shaft B 5, C 5, axis a 2, B 5, C 5 undergoes electricity therefore tied to the generator rotor of the 3 groups, excessive electric Do be accumulated in the capacitor if possible, is Luke resign medium outside carded a meshed seen fit gear, explosive fuel supply.
花形プロペラを通過した高温高速度水蒸気ガス流a 3は図4の三叉路通路7、8、9に差しかかり通路7でコックEが開閉出来、通路7は暖房用スチ−ムに利用され、使用要、不要でコックEを開閉し、暖房用に利用した場合スチ−ム路を一巡して通路8のG点で合流し、通路9は高温高速度水蒸気ガス流a 3で洗浄時に利用、要、不要時でコックFを開閉、通路8は高温高速度水蒸気ガス流a 3 の本筋で管10に繋がる。Passed through the flower propeller Atsushi Ko high velocity water vapor gas stream a 3 is possible closing cock E in passing path 7 Ri Sashikaka the three-way junction passageway 7,8,9 in FIG. 4, the passage 7 is steel for heating - arm be utilized, principal use, unnecessary and closes the cock E open, when utilized for heating steel - merge at point G the beam path and one round passage 8, passageway 9 high temperature high velocity water vapor It used during washing in a gas stream a 3, a main opening and closing the cock F in unnecessary time, channel 8 leads to a tube 10 at right course of high temperature high velocity steam gas stream a 3.
図1の平面図の様に燃焼室爆発タンク1、ノズル管5、ノズル管6を全部水没出来る大型水槽の第1水槽Oに冷却水を注入する管21をコ−ナに設け、ここより冷水を注入し、図2、3の断面図から解る様に第二水槽18への誘導管17の部分まで冷水を入れ、第1水槽Oの表面温水温度が一定温度まで上がればコンピュ−タ制御で冷水が管21より第1水槽Oの底に注水され、溢れた温水は誘導管17を通って第2水槽18に流れ行き、第1水槽Oの表面温度が一定温度まで下がれえばコンピュ−タ制御で冷水の注入が止まる。 As shown in the plan view of FIG. 1, a
図5は第2水槽18のH1側に管10から管11、12、13、14、15、部分のS字形部分が第2水槽18に漬かり、管11、12、13、15部分で熱交換が起き、管15部分は管が穴だらけにしてあり、ここより高温高速度水蒸気ガス流a 3が噴射し、高温高速度水蒸気ガス流a 3は20部分で水中に完全放出され、第2水槽18水中で温水と成り、冷水は管19により第2水槽18の底部分に注入され高温高速度水蒸気ガス流a 3により温水と成り、第2水槽18のH2側部分に温水取り出し口が上より3箇所M1,M2,M3とあり、各取り出し口に温水の出し締め用コックが上よりN1,N2,N3と設置され、この開閉も、取り出し温水温度設定もコンピュ−タで調整出来る。Figure 5 is a tube 14, 15 from the tube 10 to the H 1 side of the second water tank 18, S-shaped portion of the part is soaked in the second water tank 18, a
第2水槽のS字型管15部分に沢山の穴が開いていて、この穴より高温高圧水蒸気ガスa3が噴射しているが、発電が止まった時には管内の圧力が低下し、温水が管15内を逆流して上昇し、第2水槽の温水面が低下して管15の穴が空中に露出し、この為管15内の温水が管15の穴より再び第2水槽18に放出され元の状態になる。Have a lot of holes opened in S-shaped tube 15 portion of the second water tank, but the high-temperature, high-pressure steam gas a 3 are injected from the hole, the pressure in the tube is reduced when the power generation is stopped, hot water pipe As a result, the hot water surface of the second tank is lowered and the hole of the pipe 15 is exposed to the air, so that the hot water in the pipe 15 is discharged again from the hole of the pipe 15 to the second water tank 18. It will be in its original state.
第2水槽の温水は深さによって温度が異なるから水槽深さの違う位置の温度M1>M2>M3を利用して必要温度の湯が利用出来るが、一定温度の湯が多量に必要な時は攪拌機22で攪拌すれば良く、又高温の湯が必要なら発電機で起こした電気を利用してヒ−タKで温水を温め、取り出し口M1を利用すれば良く、高温の湯が多量に必要な時はヒ−タKと攪拌機22を利用して第2水槽の温水を一定にして,取り出し口M1,M2,M3の何処からでも取り出せる。Since the temperature of the second tank is different depending on the depth, hot water at the required temperature can be used by using temperatures M 1 > M 2 > M 3 at different positions of the water tank, but a large amount of hot water at a constant temperature is required. such time may be stirred with a stirrer 22, also using the electricity caused by the high-temperature water is necessary generator heat - warming hot water in data K, it is sufficient utilizing outlet M 1, the high-temperature hot water Can be taken out from any of the outlets M 1 , M 2 , and M 3 by using the heater K and the stirrer 22 to keep the warm water in the second tank constant.
本発明の利用価値は排出ガスの水蒸気ガスそのものも利用出来、しかも環境汚染が全く無く、目的の電力を自由に任意の場所で好きなだけ製造出来るが、大手電力会社の送電電力の様に他人が安全を監視してくれず、自分自身で全ての安全監視をする必要はあるが、その分だけ自由度は高く電力製造費用も安価で、その上湯が自由に使え、安全監視を十分すれば是ほど便利な給湯付き小型発電機は無い。 The utility value of the present invention is that the steam gas itself of the exhaust gas can be used, and there is no environmental pollution, and the desired power can be freely produced in any place as desired. Does not monitor safety, it is necessary to monitor all safety by itself, but the degree of freedom is high and the power production cost is low, the hot water can be used freely, and the safety monitoring is enough No small generator with hot water is so convenient.
1――爆発燃焼室タンク 2――水素ガス噴射口 3――酸素ガス噴射口
4――発火用プラグ 5――ノズル管 6――ラバルノズル管
7――スチ−ム用高温高圧水蒸気管 8――高温高圧水蒸気流本管
9――多目的高温高圧水蒸気管 10――7、8の合流本管
11、12、13、14、15――第2水槽中のS字型水蒸気管
16――第2水槽ドレン 17――冷却用第一水槽から温水を第2水槽に誘導する誘導管 18――第2水槽とその蓋 19――第2水槽への冷水注入管 20――第2水槽内管15先端ラッパ状開口
21――第1水槽冷水注入口 22――第2水槽内温水攪拌機
O――第1水槽 A1,B1,C1――花形プロペラ
A2,B2,C2――花型プロペラ回転元軸 B3,C3――ギヤB2,C2と噛み合っているギヤB3,C3 B4,C4――ギヤB3,C3と噛み合っているギヤB4,C4 H1――第2水槽の冷水管及び水蒸気管導入側
H2――第2水槽温水取り出し口側 K――第2水槽内温水加熱機
M1,M2,M3――温水取り出し口 N1,N2,N3――温水取り口より温水取り出し量を調整する自動コック a1――爆発による高温高圧水蒸気ガス流 a2――ラバルノズル管で高温高圧高速度になった水蒸気ガス流
a3――花形プロペラを回転させた後の高温高圧水蒸気ガス
E――管7の高温高圧水蒸気ガス流の開け締め用自動弁
F――管9の高温高圧水蒸気ガス流の開け締め用自動弁
G――高温高圧水蒸気ガス流本管とスチィ−ム流の巡回後の高温高圧水蒸気ガス流との合流点1-Explosion combustion chamber tank 2-Hydrogen gas injection port 3-Oxygen gas injection port 4-Ignition plug 5-Nozzle pipe 6-Laval nozzle pipe 7-High temperature and high pressure steam pipe for steam 8- -High-temperature high-pressure steam flow main pipe 9-Multi-purpose high-temperature high-pressure steam pipe 10-7 and 8 merge
Claims (1)
れ、直線状ラバルノズル菅(6)の内壁に接する事の無い耐熱性の回転中心軸を持つ花形
転中心軸を高速度回転させ、その回転中心軸を直線状ラバルノズル管(6)の外に設けた発電機の回転子に接続して電気を造り、燃焼爆発室タンク(1)と直線状ラバルノズル管(6)を第1水槽(0)水中に漬け、第1水槽(0)に冷水を注入して熱機関を常に冷却し、第1水槽(0)内の温水表面温度が予定温度以上になれば第1水槽(0)に冷水を注入し、溢れた温水はパイプ(17)、を通って下方に位置する第2水槽(18)へ流れ込み、第1水槽(0)の表面温度が予定温度になるまで上記冷水を注入し続け、直線状ラバル
温水温度を高め、第2水槽(18)で不要の温水は放出し、多量の電気と多量の温水を同時に得られる温水装置を有する事を特徴とする水素酸素系発電機装置。 Hydrogen gas and oxygen gas are continuously injected into the combustion explosion chamber tank (1), and an explosion is caused by the ignition plug (4) in the combustion explosion chamber tank (1), which is connected to the combustion explosion chamber tank (1). Shape
The flower shape has a heat-resistant rotation center axis that does not touch the inner wall of the straight Laval nozzle 菅 (6).
The rotation center shaft is rotated at a high speed, and the rotation center shaft is connected to a generator rotor provided outside the linear Laval nozzle pipe (6) to create electricity, and the combustion explosion chamber tank (1) and the linear Laval nozzle. The pipe (6) is immersed in the first water tank (0) water, cold water is poured into the first water tank (0) to constantly cool the heat engine, and the surface temperature of the hot water in the first water tank (0) exceeds the predetermined temperature. If cold water is poured into the first water tank (0), the overflowing hot water flows into the second water tank (18) located below through the pipe (17), and the surface temperature of the first water tank (0) is scheduled. Continue to inject the cold water until the temperature reaches
A hydrogen-oxygen generator device characterized by having a hot water device that raises the hot water temperature and discharges unnecessary hot water in the second water tank (18), thereby obtaining a large amount of electricity and a large amount of hot water at the same time.
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JP2004259028A JP4604274B2 (en) | 2004-08-10 | 2004-08-10 | Hydrogen-oxygen generator with water heater |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2013040604A (en) * | 2011-08-15 | 2013-02-28 | Shoji Sawada | Mechanical rotary power device with power generator having function of storing hot water and accumulating electricity using total binding energy with hydrogen gas and oxygen gas as cyclic regenerated fuel using water as fuel source |
JP5196284B1 (en) * | 2012-03-27 | 2013-05-15 | 昌治 澤田 | A mechanical rotating power mechanical device with a generator device that has hot water storage and storage functions, using water as a fuel source and hydrogen gas and oxygen gas as circulating and regenerated fuel and utilizing all the combined energy. |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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IT202100003902A1 (en) * | 2021-02-19 | 2021-05-19 | Fly Tecnology Corp Srls | Rotary machine for producing motive power driven by water gas combustion |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5499821A (en) * | 1978-01-23 | 1979-08-07 | Hitachi Zosen Corp | Ejector nozzle type turbine |
JP2003206706A (en) * | 2002-01-17 | 2003-07-25 | Zetto:Kk | Power generation system |
JP2004076634A (en) * | 2002-08-14 | 2004-03-11 | Zenshin Denryoku Engineering:Kk | Gas turbine generator using hydrogen as fuel |
-
2004
- 2004-08-10 JP JP2004259028A patent/JP4604274B2/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5499821A (en) * | 1978-01-23 | 1979-08-07 | Hitachi Zosen Corp | Ejector nozzle type turbine |
JP2003206706A (en) * | 2002-01-17 | 2003-07-25 | Zetto:Kk | Power generation system |
JP2004076634A (en) * | 2002-08-14 | 2004-03-11 | Zenshin Denryoku Engineering:Kk | Gas turbine generator using hydrogen as fuel |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2013040604A (en) * | 2011-08-15 | 2013-02-28 | Shoji Sawada | Mechanical rotary power device with power generator having function of storing hot water and accumulating electricity using total binding energy with hydrogen gas and oxygen gas as cyclic regenerated fuel using water as fuel source |
JP5196284B1 (en) * | 2012-03-27 | 2013-05-15 | 昌治 澤田 | A mechanical rotating power mechanical device with a generator device that has hot water storage and storage functions, using water as a fuel source and hydrogen gas and oxygen gas as circulating and regenerated fuel and utilizing all the combined energy. |
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JP2006052714A (en) | 2006-02-23 |
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