Internal-combustion engines – Water and hydrocarbon
Reexamination Certificate
2002-01-23
2003-06-17
Kamen, Noah P. (Department: 3747)
Internal-combustion engines
Water and hydrocarbon
Reexamination Certificate
active
06578532
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to the field of fuel combustion and internal combustion engine design. More specifically the present invention relates to a fuel vaporization and mixing system for producing a mixture of fuel vapor, atomized water and air for delivery into an internal combustion engine, the system being configured and positioned relative to the internal combustion engine to draw heat from the engine exhaust system to vaporize fuel for combining into the mixture. While it is known that properly combining sprayed fuel and air with atomized water can boost horsepower and fuel efficiency, the automobile industry has failed to recognize that vaporizing the fuel with engine exhaust system heat prior to mixing with air and water is an efficient way of still further enhancing horsepower and fuel mileage.
The system includes a fuel tank for holding fuel prior to vaporization and mixing, a fuel pump in fluid communication with the fuel tank for delivering fuel from the fuel tank, a vacuum pump/or vacuum drawn off engine intake manifold with check valve, a fuel metering valve in fluid communication with the fuel pump for metering the flow of fuel from the fuel tank, a vapor collecting chamber in fluid communication with the fuel metering valve for holding fuel while the fuel is vaporized, the vapor collecting chamber being in thermal communication with the engine exhaust system to draw fuel vaporizing heat from the exhaust system, fuel blowing means mounted within the vapor collecting chamber for stirring and uniformly distributing the fuel vapor, a molecule mixture box in fluid communication with the vapor collecting chamber for receiving vaporized fuel from the chamber, a throttle mounting opening in the molecule mixture box wall containing a throttle, having a throttle body, for regulating the flow of air from the surrounding atmosphere into the molecule mixture box, an air filter mounted to the throttle body to filter air entering the throttle, a pressurizing air/water pump in fluid communication with the molecule mixture box, an air intake structure in fluid communication with the air/water pump for delivering air through the air/water pump into the molecule mixture box, a water holding tank in fluid communication with the air/water pump for delivering water through the air/water pump into the mixture box, an air/water injector positioned to receive and transform the air and water exiting the pump into a combined spray as the air and water enter the mixture box, and a spiral mixture delivery means for guiding the resulting mixture from the molecule mixture box into an intake manifold or port of an internal combustion engine. A method is also provided, including the steps of delivering sufficient heat into the fuel to transform the fuel into vaporized fuel; atomizing water; mixing metered quantities of the vaporized fuel and atomized water mist with a metered quantity of air to produce a fuel mixture; and delivering the fuel mixture into an internal combustion engine.
2. Description of the Prior Art
Many efforts have been made over the years to boost the performance of internal combustion engines running on standard, commercially available gasoline and other hydrocarbon based fuels. A good summary of known methods is provided in an article published on page 59 of the July 1983 edition of HOT ROD™ magazine, entitled
Water Injection
“Nearly all of the changes that an enthusiast might attempt [to boost horsepower] are designed to raise cylinder pressure: a higher compression ratio raises pressure by squeezing the mixture into a smaller combustion area; increasing spark advance raises cylinder pressure by giving the hot gases more time to expand; even valve timing and fuel system changes result in more cylinder pressure because they allow the cylinders to fill more completely.
“Low-octane fuels are incompatible with high cylinder pressure because they ignite easily. As a fuel's octane number increases, it becomes more resistant to self-ignition. As an engine's cylinder pressure increases, the combustion chamber temperature increases. A combination of relatively low-octane fuel and high combustion chamber temperature causes the fuel to ignite before the time of spark ignition. This means that the gases in the cylinder start burning and expanding before they should. When spark ignition does occur, a second flame front is developed. The two areas of combustion expand, causing tremendous pressure and heat between them. This results in uncontrolled, violent explosion of the unburned parts of the charge. This effect, known as detonation, breaks pistons, flattens bearings, and destroys engines.
“There are three ways to deal with detonation. You can (1) reduce cylinder pressure and sacrifice horsepower and efficiency, (2) buy expensive racing gasoline, or (3) inject water to control rising combustion chamber temperatures —undoubtedly the best solution.
“Water injection can work for you in two different ways . . . if it is injected properly and in the right amounts. A fully aerated water mist that mixes completely with the incoming charge can keep chamber temperatures below the flash point of low-octane fuel until the point of spark ignition. If the amount of water injected is not excessive, it will only keep the temperature just barely within limits and will not hinder combustion when the spark does occur. On the other hand, a well distributed, fully aerated charge will turn into a steam at the moment of combustion, expanding nearly 1700 times. . . . The expanding water vapor will actually increase pressure and, consequently, horsepower if it turns to steam at exactly the right time . . .
“Many water injection systems fail to accomplish this because the're really nothing more than squirt guns. . . .[T]hey merely deliver water under pressure to a carburetor without properly aerating it first.”
The benefits of combining atomized water with the fuel/air mixture and the need to fully aerate the water component prior to mixing have been recognized for nearly two decades. Yet there has been no recognition of the need to fully aerate the fuel, which has at least equal capacity for boosting engine power and fuel mileage.
Wooldridge, U.S. Pat. No. 3,874,353, issued on Apr. 1, 1975, discloses an air and fuel mixing system using a bath of liquid fuel for contributing liquid fuel to the air. Martin, U.S. Pat. No. 1,319,718, issued on Oct. 28 1919, teaches a kerosene vaporizer for internal combustion engines in which an electric coil and engine exhaust gases provide vaporizing heat to the kerosene. Hensen, U.S. Pat. No. 4,398,523, issued on Aug. 16, 1983, reveals a fuel conservation device in which fuel is vaporized with a heating element. Harvey, U.S. Pat. No. 4,594,991, issued on Jun. 17, 1986, discloses a fuel and water vaporizer for internal combustion engines. Harpman, U.S. Pat. No. 4,112,889, issued on Sep. 12, 1978, teaches a fuel system and vaporizer for internal combustion engines. Faustinos, U.S. Pat. No. 4,188,928, issued on Feb. 19, 1980, reveals a fuel vaporizing apparatus for internal combustion engines. A problem with these prior devices and systems is that none teach or suggest the advantage of combining air and water with fuel which has been vaporized by engine exhaust system heat.
It is thus an object of the present invention to provide a fuel vaporization system which produces a fuel mixture including metered quantities of vaporized fuel, misted water and air, for high power combustion within an internal combustion engine.
It is another object of the present invention to provide such a fuel vaporization system which vaporizes fuel with heat received from the engine exhaust system.
It is still another object of the present invention to provide a fuel vaporization method for execution by the disclosed fuel vaporization system which includes the steps of vaporizing fuel with heat from an engine exhaust system and mixing the vaporized fuel with atomized water and with air to produce
Ali Hyder
Kamen Noah P.
Oltman Flynn & Kubler
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