Water combustion technology - methods, processes, systems and apparatus for the combustion of Hydrogen and Oxygen

Abstract

This invention presents improved combustion methods, systems, engines and apparatus utilizing H2, O2 and H2O as fuel, thereby providing environmentally friendly combustion products, as well as improved fuel and energy management methods, systems, engines and apparatus. The Water Combustion Technology; WCT, is based upon water (H2O) chemistry, more specifically H2O combustion chemistry and thermodynamics. WCT does not use any hydrocarbon fuel source, rather the WCT uses H2 preferably with O2 and secondarily with air. The WCT significantly improves the thermodynamics of combustion, thereby significantly improving the efficacy of combustion, utilizing the first and second laws of thermodynamics. The WCT preferably controls combustion temperature with H2O and secondarily with air in the combustion chamber. The WCT preferably recycles exhaust gases as fuel converted from water. The WCT minimizes external cooling loops and minimizes exhaust and / or exhaust energy, thereby maximizing available work and internal energy while minimizing enthalpy and entropy losses.

Description

RELATED APPLICATION DATA[0001]This application is a divisional application of Ser. No. 10 / 790,316 filed Mar. 1, 2004, which is a continuation of PCT / US03 / 11250 filed Apr. 10, 2003. This application claims priority of Ser. No. 10 / 790,316 filed Mar. 1, 2004; PCT / US03 / 11250 filed Apr. 10, 2003; PCT / US03 / 41719 field Oct. 11, 2003; U.S. Provisional Patent Application Ser. No. 60 / 371,768 filed Apr. 11, 2002; U.S. Provisional Application Ser. No. 60 / 379,587 filed May 10, 2002; U.S. Provisional Patent Application Ser. No. 60 / 404,644 filed Aug. 19, 2002 and U.S. Provisional Application Ser. No. 60 / 447,880 filed Feb. 14, 2003.BACKGROUND OF THE INVENTION[0002]1. Field of the Invention[0003]This invention relates to improved combustion, methods, processes, systems and apparatus, which provide environmentally friendly combustion products, as well as to fuel and energy management methods, processes, systems and apparatus for said improved combustion methods, processes, systems and apparatus. The ...

AI Technical Summary

Benefits of technology

"The invention is about creating environmentally friendly, efficient, and economically feasible combustion methods for internal combustion engines. The invention aims to devise methods that produce minimal oxides of carbon, nitrogen, and oxides of air, and that can be used with traditional materials of construction to minimize the cost of engine construction. The invention also aims to devise methods that can be used for electrical energy generation, jet propulsion, and heat generation applications. The invention is about creating a fuel system that can efficiently convert water into hydrogen and oxygen using electrolysis. The invention also aims to devise methods that manage energy more efficiently than traditional combustion engines. Overall, the invention aims to create a more effective and economically feasible way to use combustion in various applications."

Problems solved by technology

These very poor results are a direct consequence of the thermodynamics of combustion.

This is because it is very difficult for fossil fuel combustion systems to manage temperature without significant entropy and enthalpy losses to their environment; these losses are exhibited as exhaust gases and heat losses to the environment.

This production in combination with significant deforestation has left plant life incapable of converting enough of the manmade CO2 back into O2.

CO, an incomplete combustion by-product, is toxic to all human, animal and plant life.

NOX is toxic to all human, animal and plant life.

The formation of NOX is endothermic, thereby lessening combustion efficiency.

O3 is toxic to all human, animal and plant life.

SOX are toxic to all human, animal and plant life.

In summary, COX, NOX, SOX and O3 in the air adversely affect the health of all human, animal and plant life.

As an example, industrial facilities are outfitted with expensive scrubber systems whenever the politics demand the installation and / or the business supports the installation.

However, with all of the scrubber modifications, engine modifications and fuel modifications, the Earth is struggling to deal with manmade pollutants that originate from hydrocarbon combustion systems.

In addition to the environmental issues, availability and dependability of large quantities of petroleum hydrocarbons has become a geopolitical issue.

Those attempts had as difficulties: the high temperature of combustion, increased NOX formation at higher combustion temperatures, storage capacity for large enough quantities of H2 and cost of operation.

Jet propulsion applications had as difficulties: high combustion temperatures, lack of available thrust and a lower altitude propulsion limit than kerosene.

Such storage equipment for large volumes of H2 becomes economically impractical.

However, this concept has deficiencies in that the electrical energy required to power an electric motor must be created and stored.

While the photovoltaic process is environmentally friendly, the photovoltaic process is not reliable or effective enough in many applications to replace the combustion engine.

While the water driven (water wheel) generation process is environmentally friendly, the water driven generation process is a geographically limited energy source.

While the windmill driven generation process is environmentally friendly, wind is a limited non-reliable resource.

While the nuclear generation / steam driven generation process is environmentally friendly, concerns over the safety of such installations have limited applications.

Commercialization of the electric car has been limited due to electrical energy cost and the electrical energy mass storage requirement being so massive that under the best of circumstances the electric car must be limited to short distances or supplemented with an internal combustion engine.

Also, the required maintenance of fuel cells increases the cost of operation.

In addition, fuel cells require Platinum; there is not enough Platinum in the Earth's crust for one year's automotive production, much less enough for the energy needs of the world.

Lastly, in transportation the fuel cell does not have the same “feel” as the internal combustion engine, which may lead to acceptance challenges.

Previous attempts to replace or reduce the power of the internal combustion engine have failed due to market acceptance.

While each of these patents present improvements in combustion technology, each leaves issues that have left the commercialization of such a combustion engine impractical.

Of these two binary distillations, the former is more difficult, requiring more reflux and / or theoretical trays than the latter.

Both binary separations become more difficult at higher pressure.

For the conventional arrangement, product recoveries decrease substantially as the operating pressure is increased above one atmosphere mainly due to the increasing difficulty of the Ar—O2 separation.

Operation of the conventional arrangement at these pressures results in very poor product recoveries due to the previously described effect of pressure on the ease of separation.

However, it has not been proposed to utilize PSA to fuel the combustion of O2 with H2 or to utilize the energy of the combustion of O2 with H2 to power PSA separation of air.

The Persinski patent presents chemical combinations which prevent scale and corrosion; however, the Persinski patent does not address electrolysis or combustion.

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