JP2018031067A - Generator of "mixture gas containing pressurized water vapor and hho gas" and utilization method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a generator of a mixture gas containing pressurized water vapor and HHO gas, to which attachment devices such as a liquid-gas separator, a flashback arrester or the like are conveniently connected, and by which a risk of leakage of the HHO gas is eliminated and a liquid level and temperature are stabilized.SOLUTION: A liquid-gas separation is promoted by charging an electrolytic solution in a lower liquid phase part 1-3 of a pressure vessel 1-1, by integrating a HHO gas generator 1-6 in liquid, by providing an accumulation space of generated gas in an upper gas phase part 1-2, and by providing a liquid-gas separator 1-5 on a liquid. A mixture gas is allowed to pass by attaching a piping 1-12 to an exit port of a valve 1-11 and the flashback arrester 1-24 and used. A liquid level in the vessel is controlled by a liquid level sensor 1-4 and a controller 1-22. A liquid temperature is controlled to preset target temperature by a temperature sensor 1-8 provided to the vessel 1-1 and a heat exchanger 1-23 and a heater 1-7 controlled by the controller 1-22. Generated gas is utilized as a driving fuel for conventional piston engine and a rotary engine.SELECTED DRAWING: Figure 1

Description

The present invention relates to an apparatus for generating a “mixed gas containing pressurized water vapor and HHO gas” and use thereof.
As a gaseous energy that replaces the conventional “energy obtained by combustion of combustible material containing carbon”, there is hydrogen gas or HHO gas (Brown gas) created by an HHO gas generator.
This invention burns (HHO gas) of “a mixed gas containing pressurized water vapor and HHO gas” and uses its high heat and high temperature to produce water of “a mixed gas containing pressurized water vapor and HHO gas”. It is an invention about the method of making a steam explosion and utilizing the force.

(1) The HHO gas (Brown gas) generator, brackish water separator, and igniter preventer are self-made, and kit products are also sold.
As for the method of using HHO gas, a self-made method is disclosed as a metal cutting machine and is also commercialized.
In addition, examples of usage as a fuel for automobile engines or examples of mixing with combustion air (atmosphere) to reduce fuel consumption have been made public.
When brown gas is burned in the atmosphere, the flame temperature is as low as 280 ° C.
It is known that when tungsten or refractory material is melted when it comes into contact with metal or ceramic, the temperature becomes so high that iron and stainless steel are cut, ash is melted, ash is melted, and metals such as tungsten having a high melting point are melted and put into practical use.
(2) Hydrogen gas burns when it reaches the ignition point. A 2: 1 mixture of hydrogen and oxygen burns at about 570 ° C at normal pressure.
The minimum spark energy required to ignite such a gas mixture is about 20 microjoules.
At normal temperature and pressure, combustion occurs when hydrogen accounts for 4% to 95% of the volume.
(3) This mixed gas is implosioned by combustion to become water, but at the same time changes to water vapor.
(4) Energy of 241.8 kj (low calorific value) is generated per 1 mol of hydrogen combustion.
(5) The phenomenon of water vapor explosion occurs when water comes in contact with a high-temperature heat source. When water is heated to become water vapor, its volume increases to about 1700 times, so that the volume increases due to instantaneous evaporation of water, which becomes an explosion.
(6) Steam explosion is roughly classified into two types: interface contact type and total reaction type.
The whole reaction type is a type of steam explosion that occurs when the water in the enclosed space is rapidly vaporized and expanded by high heat, and the sealed material is crushed at once.
(7) There are engines that use hydrogen as fuel, but they depend on atmospheric oxygen and burn.
(8) Although there is a turbine driven by water vapor made of liquid fuel or combustion gas of “combustible material containing carbon”, it depends on oxygen in the atmosphere and burns.
(9) Although there is a turbine driven by liquid fuel or combustion gas of “combustible material containing carbon”, it depends on oxygen in the atmosphere and burns.
(10) Although there is a device that burns liquid hydrogen and liquid oxygen and propels them with combustion gas (water vapor), it requires two tanks and two pumps, and its control is complicated.
(11) Steam boilers and hot water boilers made by heat exchange of liquid fuel and combustion gas of “combustible materials containing carbon” depend on oxygen in the atmosphere and burn.
However, the problem is that the energy obtained by burning “combustible materials containing carbon” becomes global warming and global pollution.

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This invention integrates the HHO gas generator, steam generator, brackish water separator, gas superheat accumulator, backfire preventer, incidental equipment and various detectors together with the control device to ensure safety. It is an improved and miniaturized "generator gas mixture of pressurized water vapor, hydrogen and oxygen (HHO gas)".
It is a device that generates the gas according to consumption by setting the property of the generated gas arbitrarily with the control device.
Invention of a method of burning a “mixed gas of pressurized water vapor, hydrogen and oxygen (HHO gas)” of the produced gas and utilizing its high heat and high temperature to intentionally explode water into a steam and utilize its power It is.

The conventional HHO gas generator has the following drawbacks.
1. A hydrogen / oxygen mixed gas generator, a brackish water separator, and a backfire preventer are installed separately and connected by piping.
2. There is a water seal facility in the incidental facilities of the device.
3. The existing apparatus is dangerous because the piping is complicated and HHO gas may leak.
4. Brackish water separation is naturally performed in the tank, and the liquid level undulates by shaking in the moving body.
5. The liquid temperature is controlled so that the liquid temperature cannot be controlled or boiled by an external heat exchanger.
6. Since the device is used at normal pressure, when the gas outlet is blocked for some reason, there is a case where the power supply is stopped by a fine pressure switch to prevent destruction due to pressure.
7. Gas separated by brackish water separator does not exceed liquid temperature.
8. HHO gas is used as a fossil fuel alternative fuel (burner, cutting machine, mixed combustion auxiliary fuel for internal combustion engines, etc.) and is not used freely as a heat source for steam explosions.
9. There are engines, steam turbines, and jet engines, but all of them pollute the environment using “combustible materials containing carbon” as fuel.
The present invention has been made to eliminate the above drawbacks.

The method for solving the problem is as follows.
It is a generator pressure of “a mixed gas of pressurized water vapor, hydrogen and oxygen”.
An electrolytic solution was placed in the lower liquid phase part 1-3 of the common pressure vessel 1-1, and a HHO gas (Brown gas) generator 1-6 was incorporated in the liquid, and generated in the upper gas phase part 1-2. A gas accumulation space is provided, and a gas-liquid separator (demister made of metal or ceramic) 1-5 is installed on the liquid surface to promote steam separation and suppress the undulation of the liquid surface during rocking .
An outlet valve 1-11 for “a mixed gas containing pressurized water vapor and HHO gas” is installed in the gas phase portion 1-2 at the top of the container 1-1.
A pipe 1-12 is attached to the outlet of the valve 1-11 and the backfire preventer 1-24 and is used by passing through “a mixed gas containing pressurized water vapor and HHO gas” to ensure the safety of the main body.
The change in the liquid level due to the shaking of the temperature transfer moving body is absorbed by the brackish water separator 1-5.
The liquid temperature is controlled to the set target temperature by the temperature sensor 1-8 installed in the container 1-1, the heat exchanger 1-23 controlled by the controller 1-22, and the heater 1-7. .
The generated steam, hydrogen, and oxygen mixed gas 1-0 is controlled by a temperature sensor 1-9 installed in the container 1-1 and a heater 1-13 controlled by a control device 1-22. Be controlled.
The pressure in the pressure vessel 1-1 is determined by the pressure sensor 1-10 installed in the vessel 1-1 and the control device 1.
The target pressure is controlled by the gas generator controlled by -22 and the heaters 1-7 and 1-13.
The water level in the container is controlled by a water supply device 1-21 controlled by a water level sensor 1-4 and a control device 1-22 installed in the container, and is controlled to a target water level set by opening the valve 1-19. Prevents concentration.
The degree of contamination of the electrolyte is drained by detecting the electrode current with the contamination sensor 1-15 and the control device 1-22 installed in the container and opening the valve 1-20.
The electrolyte is a valve 1-14 installed at the bottom of the container, a sensor 1-15, a filter A1-16, a filter B1-17, a heat exchanger 1-23, a water supply device 1-21, a valve 1 installed in the container Circulate through 14. When the contamination degree sensor detects contamination, the water is drained from the drain valve 1-20, which is controlled by the control device 1-22.
A method of using “a mixed gas containing pressurized water vapor and HHO gas” will be described below.
This gas is characterized by supplying “a mixed gas containing pressurized water vapor and HHO gas” as fuel.
(1) Combustible material containing carbon and an engine independent of the atmosphere The fuel of this engine is “a mixed gas containing pressurized water vapor and HHO gas”.
When hydrogen and oxygen present in this gas are "intermittently burned" in a combustion chamber of a facility where the volume change between the cylinder rotor housing and piston rotor made of metal or ceramic changes the rotation of the shaft The HHO gas in the combustion chamber generates a high temperature, and the moisture in the gas generates a steam explosion with the heat.
At that time, the volume between the cylinder / rotor housing and the piston / rotor changes to change the rotation of the shaft.
Therefore, this gas can be used as a driving fuel for existing piston engines and rotary engines.
It can be used simply by remodeling the intake part of the engine.
A four-cycle engine will be described as an example.
The valve 2-9 is directly shut off from the atmosphere, connected to the fuel gas pipe 2-4, and supplied with “a mixed gas containing pressurized water vapor and HHO gas”.
When the piston is moved from the top dead center to the bottom dead center, the intake valve is opened at the same time, and the fuel gas generated by the generator 2-8 of “a mixed gas containing pressurized water vapor and HHO gas” is pushed in.
A large amount of “mixed gas containing pressurized water vapor and HHO gas” is sucked into the cylinder.
When the piston passes the bottom dead center, the intake valve closes and when the piston moves to the top dead center, the “gas mixture containing pressurized water vapor and HHO gas” inside the cylinder is further pressurized.
Vapor in the pressure gas inside the cylinder is condensed to water with increasing pressure.
When the cylinder exceeds the top dead center, the HHO gas in the gas is burned by the spark of the spark plug and becomes steam, and at the same time, a high temperature is generated.
At the same time, when the water inside the cylinder explodes with steam due to high heat, the volume expands, the piston is pushed down and passes through the bottom dead center, the exhaust valve opens and the piston is exhausted until it reaches the top dead center.
The engine moves by repeating the above steps.
The "mixed gas containing pressurized water vapor and HHO gas" was further pressurized in the piston chamber without containing outside air inside the cylinder of the internal combustion engine. After that, ignite and intentionally cause a steam explosion.
This engine does not depend on atmospheric oxygen.
This engine does not contain carbon in fuel and does not pollute the global environment.
The exhaust gas is not returned to the outside by returning the exhaust gas to water with the condenser 2-6 and returning it to the gas generator 2-8.
(2) A combustible containing carbon and a turbine that does not depend on the atmosphere This gas is characterized by being a “mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramics is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air. Then wake up.
A turbine inlet 3-3 is attached to the outlet of the combustion chamber 3-1, and the condenser 3-7 or the outside air is opened to the turbine outlet, and this "mixed gas containing pressurized water vapor and HHO gas" is added to the pressure vessel. Is injected without containing outside air, ignited by increasing the gas density, intentionally generating a steam explosion, turning the turbine 3-3 with the generated high-pressure steam and turning the load 3-5.
When a steam explosion occurs continuously or intermittently, the turbine 3-3 rotates continuously due to a pressure difference.
There is no particular shape of the turbine.
Existing steam turbines and gas turbines can be operated.
The combustion chamber and the turbine may be separated and connected by piping.
This gas-only continuous combustion engine emits no exhaust gas other than water.
The engine is independent of the atmosphere.
This engine does not contain carbon in fuel and does not pollute the global environment.
By returning the exhaust gas to water with a condenser and returning it to the gas generator, the exhaust gas may be discharged outside or may be discharged to the atmosphere.
(3) Propulsion system that does not depend on combustible materials containing carbon and the atmosphere The fuel of this engine is “a mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramic is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air, and the gas density is increased and then ignited to intentionally cause a water vapor explosion.
Combustion chamber 4-2 made of metal or ceramic is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air, gas density is increased, ignition is performed, and water vapor explosion is intentionally caused. .
The turbine is rotated by high-pressure steam generated by attaching and integrating the inlet of the turbine 4-3 to the outlet of the combustion chamber 4-2.
When a steam explosion occurs continuously or intermittently, the turbine rotates continuously due to a pressure difference.
This is the propulsive force where the outside air is released to the turbine outlet and ejected.
Further, a fan is mounted on the same axis as the turbine 4-3, absorbs and compresses air 4-8 from the front part, and jets 4-9 from the rear part.
The complete or continuous combustion engine of only this “mixed gas containing pressurized water vapor and HHO gas” does not emit exhaust gas other than water.
Turbine engines are not dependent on the atmosphere.
This engine does not contain carbon in fuel and does not pollute the global environment.
By returning the exhaust gas to water with a condenser and returning it to the gas generator, the exhaust gas may be discharged outside or may be discharged to the atmosphere.
(4) “Propulsion device in water” that does not depend on combustible materials containing carbon and air
The fuel for this engine is “a mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramic is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air, and the gas density is increased and then ignited to intentionally cause a water vapor explosion.
A turbine inlet is attached to the outlet of the combustion chamber and integrated, and the turbine is rotated by the generated high-pressure steam.
When a steam explosion occurs continuously or intermittently, the turbine rotates continuously due to a pressure difference.
This is the propulsive force where the outside air is released to the turbine outlet and ejected.
Further, a reduction gear and a screw are mounted on the same axis as the turbine, and water is absorbed and compressed from the front part and ejected from the rear part.
If soundproofing is applied to the inside and outside of this device, the underwater driving sound and screw cavitation sound are muted.
This gas-only continuous combustion engine emits no exhaust gas other than water.
Turbine engines are not dependent on atmospheric oxygen.
This engine does not contain carbon in fuel and does not pollute the global environment.
The exhaust is not returned to the outside by returning it to water with a condenser and returning it to the gas generator.
(5) A device for propelling with a liquefied “mixed gas containing water vapor and HHO gas”.
The fuel of this engine is a liquefied “mixed gas containing water vapor and HHO gas”.
The “mixed gas containing water vapor and HHO gas” is liquefied more easily than hydrogen gas or oxygen gas.
A combustion chamber made of metal or ceramics is injected with a gas mixture containing steam and HHO gas that has been liquefied without containing outside air, vaporized, and ignited. It is a device that is propelled by a large amount of water vapor.
The apparatus is characterized by comprising one tank, one valve, one pump, a combustion chamber, a propulsion unit, and a control device of “liquefied“ mixed gas containing water vapor and HHO gas ””.
This "apparatus that propels only liquid fuel" does not emit exhaust gases other than water.
Since this “apparatus that propels only liquid fuel” does not depend on atmospheric oxygen, it is an apparatus that propels in any environment such as space, air, and water.
This engine does not contain carbon in fuel and does not pollute the global environment.
(6) “Steam generator” that does not depend on combustible materials containing carbon and air
The fuel of this “steam generating device” is characterized in that it is “a mixed gas containing pressurized water vapor and HHO gas”.
A “mixed gas containing pressurized water vapor and HHO gas” is injected into a combustion chamber made of metal or ceramic without containing outside air, and then ignited by an ignition device to intentionally cause a steam explosion.
The lower part of the combustion chamber is sealed with water, and has a liquid level sensor and a pump, and is controlled to a value set by the control device.
The generated steam is stored in the steam chamber filled with demister from the open part at the bottom of the combustion chamber and taken out from the valve at the top of the steam chamber.
There are a pressure sensor and a temperature sensor in the steam chamber, and a valve and a pump in the lower part, which are controlled to the values set by the control device.
The fact that this fuel is “a mixed gas containing pressurized water vapor and HHO gas” does not emit exhaust gas other than water as a result of combustion.
This “apparatus using fuel gas containing pressurized water vapor, hydrogen and oxygen” as fuel is a water vapor generator that can be used in any environment such as space, air, and water because it does not depend on atmospheric oxygen.
This device does not contain carbon in the fuel and does not pollute the global environment.
(7) “Warm water generator” that does not depend on combustible materials containing carbon and air
The fuel of this “warm water generator” is characterized by being “a mixed gas containing pressurized water vapor and HHO gas”.
A “mixed gas containing pressurized water vapor and HHO gas” is injected into a combustion chamber made of metal or ceramic without containing outside air, and then ignited with an igniter to intentionally cause a water vapor explosion.
The lower part of the combustion chamber and the hot water chamber are seen with water, and there are a liquid level sensor and a pump, which are controlled to the values set by the control device.
The generated steam is directly heat-exchanged in the hot water chamber filled with the demister from the open part at the lower part of the combustion chamber to become hot water and taken out from the valve.
The hot water chamber has a pressure sensor and a temperature sensor, and there are a valve and a pump at the lower part, which are controlled to values set by the control device.
The fact that this fuel is “a mixed gas containing pressurized water vapor and HHO gas” does not emit exhaust gas other than water as a result of combustion.
This “hot water device using“ mixed gas containing pressurized water vapor and HHO gas ”as fuel” is a hot water generator that can be used in any environment such as space, air, and water, because it does not depend on atmospheric oxygen.
The above is the solution to the problem.

1. Convert electrical energy into gas "mixed gas containing water vapor and HHO gas" or liquid "liquefied product of mixed gas containing water vapor and HHO gas" and transport it to the consumption area with existing transportation technology. It can be integrated into one and miniaturized.
3. Integration reduces the number of pipes and increases safety.
4). The “mixed gas containing pressurized water vapor and HHO gas” ignites and ignites even in an environment independent of the atmosphere (space, water, incombustible gas (nitrogen, carbon dioxide, helium, argon, etc.)).
5). The generation of gas is controlled, and the ratio, temperature, and pressure of “a mixed gas containing pressurized water vapor and HHO gas (Brown gas)” can be set to arbitrary values.
6. An apparatus that continuously generates “a mixed gas containing water vapor and HHO gas” according to the amount used.
7. This “mixed gas containing pressurized water vapor and HHO gas” is a new type of fuel gas. 8. This “mixed gas containing pressurized water vapor and HHO gas” is an existing gas. It can be used as fuel for internal combustion engines (piston engines, rotary engines).
9. It can be used simply by remodeling the intake part of the internal combustion engine, shuts off from the atmosphere, and supplies pressurized gas directly to the inlet of the intake valve.
10. After this "mixed gas containing pressurized water vapor and HHO gas" is pressed into a combustion chamber made of metal or ceramic of an existing internal combustion engine, the gas density is increased, and the pressure inside the combustion chamber is further increased. Ignite and cause a steam explosion.
11. The exhaust gas is not returned to the outside by returning it to water with a condenser and returning it to the gas generator.
12. This “mixed gas containing pressurized water vapor and HHO gas” can produce any high-pressure water vapor when a steam explosion is appropriately and intentionally generated in the combustion chamber. It becomes a steam boiler and hot water boiler without fossil fuel combustion.
13. Install the turbine inlet at the outlet of the combustion chamber, open the condenser or the outside air at the turbine outlet, open the condenser or outside air, and put this "mixed gas containing pressurized water vapor and HHO gas" into the pressure vessel. Without pressure, the gas density is increased and ignited, a steam explosion is intentionally generated, and the turbine is rotated by the generated high-pressure steam.
14. When a steam explosion occurs continuously or intermittently, the turbine rotates continuously with a steam jet stream.
15. There is no particular shape of the turbine, and an existing steam turbine, gas turbine or the like can be operated.
16. This continuous combustion engine of only “a mixed gas containing pressurized steam and HHO gas” does not emit exhaust gas other than water.
17. Turbine engines are not dependent on the atmosphere.
18. The exhaust gas is not returned to the outside by returning it to water with a condenser and returning it to the gas generator. It may be discharged into the atmosphere.
19. Install the turbine inlet at the outlet of the combustion chamber, open the condenser or the outside air at the outlet of the turbine, and open the condenser or outside air to the combustion chamber. This "mixed gas containing pressurized steam and HHO gas" is included in the outside air. Instead, it is a jet engine that is propelled by a fan directly connected to the turbine shaft with the high-pressure steam generated by intentionally generating a steam explosion by injecting the gas without increasing pressure and igniting.
20 is a device for propelling water in the turbine shaft with a speed reducer and a screw.
21. When soundproofing is applied to the inside and outside of the apparatus, driving sound in water and screw cavitation sound are muted.
22. When a steam explosion occurs continuously or intermittently, the turbine rotates continuously with a jet of steam.
23. The shape of the turbine is not particularly limited, and an existing steam turbine, gas turbine or the like can be operated. The exhaust is not returned to the outside by returning it to water with a condenser and returning it to the gas generator. It may be discharged into water.
24. Combustion of only this “mixed gas containing pressurized water vapor and HHO gas” produces no exhaust gas other than water.
25. Turbine engines are not dependent on the atmosphere.
26. Exhaust gas may be discharged to the atmosphere without returning to the outside by returning the exhaust gas to water with a condenser and returning to the gas generator.
27. A combustion chamber is provided, and the high-pressure steam that causes a steam explosion continuously or intermittently is propelled from the propulsion device by propelling the “liquefied gas mixture containing water vapor and HHO gas” with a propulsion device.
28. This propulsion device propels without being affected by the environment. In other words, it is also promoted in an environment such as vacuum, water, nitrogen, carbon dioxide, helium, and argon. This propulsion device does not depend on the atmosphere.
29. Since the structure is simple, if you have knowledge of DIY, you can make the basic structure with materials available at home centers.
30. High efficiency can be achieved because the combustion process is continuous and intermittent.
31. There is no intake port, the combustion chamber is widened, and the nozzle is narrow is an essential component.
32. A steam generator having a simple structure that generates a steam of any pressure by creating a steam explosion continuously or intermittently from a "mixed gas containing pressurized steam and HHO gas" by providing a combustion chamber. .
33. Warm water with a simple structure in which a combustion chamber is provided and a “mixed gas containing pressurized water vapor and HHO gas” is generated continuously or intermittently to cause a steam explosion to directly generate heat in the surrounding water and generate hot water Generator.

  A generator for "a mixed gas containing pressurized water vapor and HHO gas"   Method of using “mixed gas containing pressurized water vapor and HHO gas” (1)   Method of using “mixed gas containing pressurized water vapor and HHO gas” (2)   Usage method of “mixed gas containing pressurized water vapor and HHO gas” (3)   Method of using “mixed gas containing pressurized water vapor and HHO gas” (4)   Method of using “mixed gas containing pressurized water vapor and HHO gas” (5)   Method of using “mixed gas containing pressurized water vapor and HHO gas” (6)   Method of using “mixed gas containing pressurized water vapor and HHO gas” (7)

Generation of “pressurized water vapor, hydrogen and oxygen gas mixture” An electrolytic solution is put into the lower liquid phase section 1-3 of the pressure vessel 1-1 having a common apparatus pressure, and HHO gas (Brown gas) is generated in the liquid. Install the device 1-6, provide a storage space for the gas generated in the upper gas phase section 1-2, and install a gas-liquid separator (demister made of metal or ceramic) 1-5 on the liquid surface , Promote brackish liquid separation.
An outlet valve 1-11 for “a mixed gas containing pressurized water vapor and HHO gas” is installed in the gas phase portion 1-2 at the top of the container 1-1.
A pipe 1-12 is attached to the outlet of the valve 1-11 and the backfire preventer 1-24 to pass through the “mixed gas containing pressurized water vapor and HHO gas” to ensure the safety of the main body.
The change in the liquid level due to the shaking of the temperature transfer moving body is absorbed by the brackish water separator 1-5.
The liquid temperature is controlled to the set target temperature by the temperature sensor 1-8 installed in the container 1-1, the heat exchanger 1-23 controlled by the controller 1-22, and the heater 1-7. .
The generated steam, hydrogen, and oxygen mixed gas 1-0 is controlled by a temperature sensor 1-9 installed in the container 1-1 and a heater 1-13 controlled by a control device 1-22. Be controlled.
The pressure in the pressure vessel 1-1 was set by the pressure sensor 1-10 installed in the vessel 1-1, the gas generator controlled by the control device 1-22, and the heaters 1-7 and 1-13. The pressure is controlled.
The water level in the container is controlled to a target water level set by opening the valve 1-19 by a water supply device 1-21 controlled by a water level sensor 1-4 installed in the container and a control device 1-22.
Prevent the electrolyte from being concentrated.
The degree of contamination of the electrolytic solution is determined by a decrease in the electrode current of the sensor 1-15 and the control device 1-22 installed in the container, and the valve 1-20 is opened to drain the water.
The electrolyte is a valve 1-14 installed at the bottom of the container, a sensor 1-15, a filter A1-16, a filter B1-17, a heat exchanger 1-23, a water supply device 1-21, a valve 1 installed in the container Circulate through 14. When the contamination degree sensor detects contamination, the water is drained from the drain valve 1-20, which is controlled by the control device 1-22.

A method of using “a mixed gas containing pressurized water vapor and HHO gas” will be described below.
This gas is characterized by supplying “a mixed gas containing pressurized water vapor and HHO gas” as fuel.
(1) Combustible material containing carbon and an engine independent of the atmosphere The fuel of this engine is characterized by being “a mixed gas containing pressurized water vapor and HHO gas”.
In the combustion chamber of a facility where the volume change between the cylinder rotor housing and piston rotor made of metal or ceramic changes the rotation of the shaft, the hydrogen present in this gas and the oxygen present in this gas are When “intermittent combustion” is performed, the HHO gas in the combustion chamber burns at a high temperature, and the moisture in the gas generates a steam explosion by the heat.
At that time, the volume between the cylinder / rotor housing and the piston / rotor changes to change the rotation of the shaft.
Therefore, this gas can be used as a driving fuel for existing piston engines and rotary engines.
It can be used simply by remodeling the intake part of the engine.
A four-cycle engine will be described as an example.
Directly shut off from the atmosphere at the inlet of the valve, connect a fuel gas pipe, and supply “a mixed gas containing pressurized water vapor and HHO gas”.
When the piston is moved from the top dead center to the bottom dead center, the intake valve is opened at the same time, and the fuel gas generated by the “mixed gas containing pressurized water vapor and HHO gas” is pushed in.
A large amount of “mixed gas containing pressurized water vapor and HHO gas” is sucked into the cylinder.
When the piston passes the bottom dead center, the intake valve closes and when the piston moves to the top dead center, the “gas mixture containing pressurized water vapor and HHO gas” inside the cylinder is further pressurized.
Vapor in the pressure gas inside the cylinder is condensed to water with increasing pressure.
When the cylinder exceeds the top dead center, the HHO gas in the gas is burned by the spark of the spark plug and becomes steam, and at the same time, a high temperature is generated.
At the same time, when the water inside the cylinder explodes with steam due to high heat, the volume expands, the piston is pushed down and passes through the bottom dead center, the exhaust valve opens and the piston is exhausted until it reaches the top dead center.
The engine moves by repeating the above steps.
The "mixed gas containing pressurized water vapor and HHO gas" was further pressurized in the piston chamber without containing outside air inside the cylinder of the internal combustion engine. After that, ignite and intentionally cause a steam explosion.
This engine does not depend on atmospheric oxygen.
This engine does not contain carbon in fuel and does not pollute the global environment.
The exhaust is not returned to the outside by returning it to water with a condenser and returning it to the gas generator.
(2) Combustible material containing carbon and turbine independent of the atmosphere This gas is characterized in that it is a “mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramics is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air. Then wake up.
Attach the turbine inlet to the outlet of the combustion chamber and open the condenser or outside air to the turbine outlet. Pressurize this “mixed gas containing pressurized steam and HHO gas” into the pressure vessel without containing outside air. The gas density is increased and ignited, a steam explosion is intentionally generated, and the turbine is rotated with the generated high-pressure steam to turn the load.
When a steam explosion occurs continuously or intermittently, the turbine rotates continuously due to a pressure difference.
There is no particular shape of the turbine.
Existing steam turbines and gas turbines can be operated.
The combustion chamber and the turbine may be separated and connected by piping.
This gas-only continuous combustion engine emits no exhaust gas other than water.
The engine is independent of the atmosphere.
This engine does not contain carbon in fuel and does not pollute the global environment.
By returning the exhaust gas to water with a condenser and returning it to the gas generator, the exhaust gas may be discharged outside or may be discharged to the atmosphere.
(3) Propulsion system that does not depend on combustible materials and air and the atmosphere The fuel of this engine is “a mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramic is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air, and the gas density is increased and then ignited to intentionally cause a water vapor explosion.
The turbine is rotated by high-pressure steam generated by attaching and integrating the turbine inlet to the combustion chamber outlet.
When a steam explosion occurs continuously or intermittently, the turbine rotates continuously due to a pressure difference.
This is the propulsive force where the outside air is released to the turbine outlet and ejected.
Further, a fan is mounted on the same axis as the turbine, and air is absorbed and compressed from the front part and ejected from the rear part.
The complete or continuous combustion engine of only this “mixed gas containing pressurized water vapor and HHO gas” does not emit exhaust gas other than water.
Turbine engines are not dependent on the atmosphere.
This engine does not contain carbon in fuel and does not pollute the global environment.
By returning the exhaust gas to water with a condenser and returning it to the gas generator, the exhaust gas may be discharged outside or may be discharged to the atmosphere.
(4) “Propulsion device in water” that does not depend on “combustible materials containing carbon” and “atmosphere”
The fuel for this engine is “a mixed gas containing pressurized water vapor and HHO gas”.
A combustion chamber made of metal or ceramic is injected with “mixed gas containing pressurized water vapor and HHO gas” without containing outside air, and the gas density is increased and then ignited to intentionally cause a water vapor explosion.
A turbine inlet is attached to the outlet of the combustion chamber and integrated, and the turbine is rotated by the generated high-pressure steam.
When a steam explosion occurs continuously or intermittently, the turbine rotates continuously due to a pressure difference.
This is the propulsive force where the outside air is released to the turbine outlet and ejected.
Further, a reduction gear and a screw are mounted on the same axis as the turbine, and water is absorbed and compressed from the front part and ejected from the rear part.
If soundproofing is applied to the inside and outside of this device, the underwater driving sound and screw cavitation sound are muted.
This gas-only continuous combustion engine emits no exhaust gas other than water.
Turbine engines are not dependent on atmospheric oxygen.
This engine does not contain carbon in fuel and does not pollute the global environment.
The exhaust is not returned to the outside by returning it to water with a condenser and returning it to the gas generator.
(5) A device that is propelled by the “mixed gas containing water vapor and HHO gas”.
The fuel of this engine is “liquefied” “mixed gas containing water vapor and HHO gas”.
The “mixed gas containing water vapor and HHO gas” is liquefied more easily than hydrogen gas or oxygen gas.
A “mixed gas containing water vapor and HHO gas” that has been “liquefied” without containing outside air is injected into a combustion chamber made of metal or ceramics, vaporized to increase the gas density, ignited, and continuously or intermittently produced a steam explosion It is a device that is intentionally awakened and propelled by a large amount of water vapor.
The apparatus is characterized in that "liquefied""mixed gas containing water vapor and HHO gas" is simply constituted by one tank, one valve, one pump, a combustion chamber, a propulsion unit, and a control device.
This "apparatus that propels only liquid fuel" does not emit exhaust gases other than water.
Since this “apparatus that propels only liquid fuel” does not depend on atmospheric oxygen, it is an apparatus that propels in any environment such as space, air, and water.
This rocket engine does not contain carbon in fuel and does not pollute the global environment.
(6) "Steam generator" that does not depend on combustibles and carbon and atmosphere
The fuel of this “steam generating device” is characterized in that it is “a mixed gas containing pressurized water vapor and HHO gas”.
A “mixed gas containing water vapor and HHO gas” is injected into a combustion chamber made of metal or ceramic without containing outside air, and then ignited by an ignition device to intentionally cause a water vapor explosion.
The lower part of the combustion chamber is sealed with water, and has a liquid level sensor and a pump, and is controlled to a value set by the control device.
The generated steam is stored in a steam chamber filled with demister from an open portion at the lower portion of the combustion chamber and taken out from a valve at the upper portion of the steam chamber.
There are a pressure sensor and a temperature sensor in the steam chamber, and a valve and a pump in the lower part, which are controlled to the values set by the controller.
The fact that this fuel is a “mixed gas containing pressurized water vapor, hydrogen and oxygen” does not emit exhaust gas other than water as a result of combustion.
This “apparatus using fuel gas containing pressurized water vapor, hydrogen and oxygen” as fuel is a water vapor generator that can be used in any environment such as space, air, and water because it does not depend on atmospheric oxygen.
This device does not contain carbon in the fuel and does not pollute the global environment.
(8) “Hot water generator” that does not depend on combustible materials containing carbon and air
The fuel of this “warm water generator” is characterized by being “a mixed gas containing pressurized water vapor and HHO gas”.
A “mixed gas containing pressurized water vapor and HHO gas” is injected into a combustion chamber made of metal or ceramic without containing outside air, and then ignited by an igniter to intentionally cause a water vapor explosion.
The lower part of the combustion chamber and the hot water chamber are seen with water, and there are a liquid level sensor and a pump, which are controlled to the values set by the control device.
The generated steam is directly heat-exchanged in the warm water chamber filled with the demister from the open part at the bottom of the combustion chamber, becomes hot water, and is taken out from the valve.
The hot water chamber has a pressure sensor and a temperature sensor, and there are a valve and a pump at the lower part, which are controlled to values set by the control device.
The fact that this fuel is “a mixed gas containing pressurized water vapor and HHO gas” does not emit exhaust gas other than water as a result of combustion.
This “warm water device using fuel gas containing pressurized water vapor and HHO gas” as fuel is a warm water generator that can be used in any environment such as space, air, and water because it does not depend on atmospheric oxygen.
The above is a typical implementation example.

It will be a new industrial revolution.
It is a new type of fuel gas that has no environmental burden and can be an alternative energy for carbon compounds depending on the purpose of use.
Depending on the purpose of use, it becomes an alternative energy for conventional carbon compounds such as petroleum, natural gas, and methane.
Existing infrastructure facilities can be used.
It can be made and consumed in the consumption area, and it can be made and transported in a remote area, which will promote the industry.
Since it is possible to generate electricity using natural energy and convert electric energy into gas or liquid fuel and transport it, power plants can be installed even in environments where transmission lines cannot be installed.

1-1 Pressure vessel 1-2 Gas phase part 1-3 Liquid phase part 1-4 Water level sensor 1-5 Gas-liquid separation device (demister)
1-6 Hydrogen / Oxygen Mixed Gas (HHO Gas, Brown Gas) Generator 1-7 Heater 1-8 Temperature Sensor 1-9 Temperature Sensor 1-10 Pressure Sensor 1-11 Gas Outlet Valve 1-12 Piping 1 13 Heater 1-14 Valve 1-15 Sensor 1-16 Filter A
1-17 Filter B
1-18 valve 1-19 water supply valve 1-20 drainage valve 1-21 water supply device 1-22 control device 1-23 heat exchanger 1-24 backfire preventer 1-25 water supply 1-26 water discharge 1-27 Gas mixture containing pressurized water vapor, hydrogen and oxygen "
2-1 Engine body 2-2 Output shaft 2-3 Load (generator, screw, wheel, etc.)
2-4 Fuel gas pipe 2-5 Cooling water pipe 2-6 Condenser 2-7 Pump 2-8 “Generator for mixed gas soot containing pressurized water vapor, hydrogen and oxygen 2-9 Valve 3-1 Combustion chamber 3-2 Piping or combustion chamber outlet 3-3 Turbine 3-4 Turbine shaft 3-5 Load (generator, screw, wheel, etc.)
3-6 Ignition device 3-7 Cooling water piping 3-8 Condenser 3-9 Pump 3-10 “Mixed gas containing pressurized water vapor and HHO gas” 4-1 Main body (pipe shape)
4-2 Combustion chamber 4-3 Turbine integrated with combustion chamber 4-4 Turbine shaft 4-5 Fan attached to turbine shaft 4-6 Fuel pipe 4-7 Valve 4-8 Air 4-9 Jet stream (jet air flow)
4-10 Ignition device 5-1 Main body (pipe-like silencer inside / outside)
5-2 Combustion chamber (silence treatment inside and outside)
5-3 Turbine integrated with combustion chamber 5-4 Turbine shaft 6-5 Screw 6-6 Fuel pipe 5-7 Valve 5-8 Water 5-9 Jet water flow (jet water flow) There is no eruption.
5-10 Ignition device 5-11 Reducer (silenced outside)
5-12 Turbine room (silence treatment inside and outside)
5-13 Cooling Water 5-14 Condenser 5-15 Pump 5-16 “Mixed Gas Containing Pressurized Steam and HHO Gas” 6-1 Main Body 6-2 “Pressurized Steam and HHO “Liquid” fuel tank of “gas mixture” 6-3 Valve 6-4 Pump 6-5 Combustion chamber 6-6 Steam injection 6-7 Propulsion unit 6-8 Payload 7-1 Main body 7-2 Combustion chamber 7- 3 Fuel pipe 7-4 Ignition device 7-5 “Mixed gas of pressurized water vapor and HHO gas”
7-7 Water vapor 7-8 Valve 7-9 Pressure sensor 7-10 Temperature sensor 7-11 Water 7-12 Water level sensor 7-13 Pump 7-14 Water supply 7-15 Porous packing filled in the hot water chamber Or demister 8-1 body 8-2 combustion chamber 8-3 fuel pipe 8-4 ignition device 8-5 “mixed gas of pressurized water vapor and HHO gas”
8-6 Hot water chamber 8-7 Hot water 8-8 Hot water outlet pipe and valve 8-9 Pressure sensor 8-10 Temperature sensor 8-11 Combustion chamber opening 8-12 Blank 8-13 Valve 8-14 Feed water pump 8-15 Porous filling or demister filled in hot water chamber

Claims (9)

A hydrogen and oxygen mixed gas generator and heating device are installed in the lower liquid phase part of a common pressure vessel, and a brackish water separator is installed on the liquid level to suppress changes in the liquid level due to the generation and shaking of bubbles.
A facility that integrates and downsizes a heating device in the gas storage space in the upper gas phase and a valve and a flashback prevention device at the gas outlet.
The liquid temperature is controlled by a temperature sensor installed in the container, a cooler and a heating device controlled by the control device, and controlled to the target temperature set by the control device.
The gas is controlled by the HHO gas generator and gas heater controlled by the temperature sensor, pressure sensor, and control device installed in the container. "Gas mixture of water vapor and HHO gas" generator   An engine that moves with a pressure difference by generating a steam explosion with a "mixed gas of pressurized steam and HHO gas".   A facility that integrates a combustion chamber and a turbine that move due to a pressure difference by generating a steam explosion with "a gas mixture of pressurized steam and HHO gas".   A facility in which a combustion chamber and a turbine separated by a pipe are separated by a pressure difference due to a steam explosion caused by “a gas mixture of pressurized steam and HHO gas”.   Pressurize and blow out the outside air with a turbine that generates a steam explosion with the "mixed gas of pressurized water vapor and HHO gas" and moves at a pressure difference with the outside air, and a turbine fan installed on the same shaft as the turbine, A device that propels the atmosphere.   Pressurize the water with a reducer provided on the same shaft as the turbine that generates a steam explosion with the "mixed gas of pressurized water vapor and HHO gas" and moves with a pressure difference. The device propelled in the water and the device silenced in water.   A rocket propulsion device that generates a steam explosion with a mixed gas of pressurized water vapor and HHO gas, and propels it with the water vapor ejected.   A miniaturized device that generates a water vapor explosion with a mixed gas of pressurized water vapor and HHO gas to generate water vapor of any pressure.   A miniaturized device that generates a steam explosion with a mixed gas of pressurized water vapor and HHO gas and directly exchanges heat with water to generate hot water of any temperature.

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