Claims
- 1. A fuel combustion process for multi-cylinder, reciprocating engines that reduce emissions of unburned hydrocarbons, carbon monoxide and oxides of nitrogen in the engine exhaust, the process includes the steps of:
- burning a hydrocarbon rich fuel in at least one engine cylinder to produce exhaust gas containing carbon monoxide, oxides of nitrogen, unburned hydrocarbons, water vapor and hydrogen;
- reacting the exhaust gas in the presence of a water-gas shift catalyst disposed in conduit means connecting an exhaust port from the one engine cylinder with an inlet port of each remaining engine cylinder to produce a mixture containing increased hydrogen and carbon dioxide;
- mixing said mixture with a hydrocarbon lean fuel to form a hydrogen enriched inlet gas; and
- burning said inlet gas in the remaining engine cylinders to power said engine and producing engine exhaust containing reduced amounts of unburned hydrocarbons and reduced amounts of oxides of nitrogen.
- 2. An improved multi-cylinder, reciprocating engine fuel supply system that comprises:
- first carburetor means for supplying hydrocarbon rich fuel to at least one cylinder;
- conduit means connected with an exhaust port of at least one cylinder and with an inlet port of each remaining cylinder of said engine for delivering exhaust gas containing carbon monoxide, water vapor, oxides of nitrogen, and unburned hydrocarbons from said at least one cylinder to the inlet port of each said remaining cylinder;
- water-gas shift catalyst means located in said conduit means for producing a mixture containing hydrogen and carbon dioxide; and
- second carburetor means for supplying a hydrocarbon lean fuel to said conduit means for mixing with said mixture forming a hydrogen enriched inlet gas and for supplying said inlet gas to said inlet ports.
- 3. An improved fuel supply system for reciprocating engines comprising:
- means for supplying hydrocarbon rich fuel;
- a first combustion chamber in the engine for producing exhaust gas containing carbon monoxide, oxides of nitrogen, unburned hydrocarbons, water vapor and hydrogen;
- a second combustion chamber in the engine;
- conduit means connecting said combustion chambers; and
- catalyst means located in said conduit means for receiving said exhaust gas from said first combustion chamber, for using a water-gas shift reaction to produce a mixture containing hydrogen and carbon dioxide, and for delivering said mixture to said second combustion chamber wherein said mixture and air are mixed and burned to power the engine producing an exhaust having reduced amounts of oxides of nitrogen and reduced amounts of unburned hydrocarbons.
- 4. The fuel system of claim 3 wherein said system further comprises:
- a first carburetor for mixing fuel and air in a hydrocarbon rich mixture; and
- a second carburetor for mixing fuel and air in a hydrocarbon lean mixture.
- 5. A fuel combustion process for reciprocating engines that reduces emissions of unburned hydrocarbons, carbon monoxide, and oxides of nitrogen, the process includes the steps of:
- burning a hydrocarbon rich fuel in a first combustion chamber in the engine producing an exhaust gas containing carbon monoxide, oxides of nitrogen, unburned hydrocarbons, water vapor and hydrogen;
- reacting the exhaust gas in the presence of a water-gas shift catalyst in a conduit connecting the first combustion chamber with a second combustion chamber in the engine to produce a mixture containing hydrogen and carbon dioxide;
- mixing said mixture with air to form a hydrogen enriched inlet gas; and
- burning said inlet gas in the second combustion chamber to power the engine producing engine exhaust containing reduced amounts of unburned hydrocarbons and reduced amounts of oxides of nitrogen.
- 6. A fuel combustion process for reciprocating engines that reduces emissions of unburned hydrocarbons, carbon monoxide, and oxides of nitrogen, the process includes the steps of:
- burning a hydrocarbon rich fuel in a first combustion chamber in the engine producing an exhaust gas;
- reacting the exhaust gas in the presence of a catalyst using a water-gas shift reaction to produce a reactant gas mixture; the catalyst located in a conduit between the first combustion chamber and a second combustion chamber in the engine;
- mixing said reactant gas mixture with air to form a hydrocarbon lean and hydrogen enriched inlet gas; and
- burning said inlet gas in the second combustion chamber to power the engine while producing engine exhaust containing reduced amounts of unburned hydrocarbons and reduced amounts of oxides of nitrogen.
- 7. A fuel combustion process for multi-cylinder, reciprocating engines that reduces emissions of unburned hydrocarbons, carbon monoxide, and oxides of nitrogen in the engine exhaust, the process includes the steps of:
- forming a hydrocarbon rich fuel/air mixture in a first carburetor, the hydrocarbon rich fuel/air mixture formed above its associated stoichiometric range;
- delivering the hydrocarbon rich fuel/air mixture to a first cylinder;
- igniting the hydrocarbon rich fuel/air mixture in the first cylinder to produce a first exhaust gas;
- delivering the first exhaust gas to a catalytic converter;
- enriching the first exhaust gas with additional hydrogen in a water-gas shift reaction in the catalytic converter to form an enriched exhaust gas;
- delivering the enriched exhaust gas to an intercooler;
- cooling the enriched exhaust gas in the intercooler;
- delivering the enriched exhaust gas to an inlet manifold;
- mixing the enriched exhaust gas with a fuel-lean, hydrocarbon-air mixture from a second carburetor to form a second inlet gas for delivery to a plurality of cylinders; and
- igniting the second inlet gas in the plurality of cylinders to provide power to the engine.
CROSS REFERENCE TO RELATED APPLICATIONS
This application is a continuation application of U.S. application Ser. No. 07/846,025, filed Mar. 5, 1992 and entitled "Fuel Supply Systems for Engines and Combustion Processes Therefore" by Nigel F. Gale, David W. Naegeli, Thomas W. Ryan III and Steven R. King.
US Referenced Citations (14)
Continuations (1)
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Number |
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846025 |
Mar 1992 |
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