초록 ▼

Fuel management system for efficient operation of a spark ignition gasoline engine. Injectors inject an anti-knock agent such as ethanol directly into a cylinder of the engine. A fuel management microprocessor system controls injection of the anti-knock agent so as to control knock and minimize that

Fuel management system for efficient operation of a spark ignition gasoline engine. Injectors inject an anti-knock agent such as ethanol directly into a cylinder of the engine. A fuel management microprocessor system controls injection of the anti-knock agent so as to control knock and minimize that amount of the anti-knock agent that is used in a drive cycle. It is preferred that the anti-knock agent is ethanol. The use of ethanol can be further minimized by injection in a non-uniform manner within a cylinder. The ethanol injection suppresses knock so that higher compression ratio and/or engine downsizing from increased turbocharging or supercharging can be used to increase the efficiency of the engine.

대표청구항 ▼

What is claimed is: 1. A turbocharged, spark ignition engine which uses port fuel injection of gasoline from a first source in addition to direct fuel injection of liquid denatured ethanol from a second source comprising: a spark ignition engine; a turbocharger; means for port fuel injection of gas

What is claimed is: 1. A turbocharged, spark ignition engine which uses port fuel injection of gasoline from a first source in addition to direct fuel injection of liquid denatured ethanol from a second source comprising: a spark ignition engine; a turbocharger; means for port fuel injection of gasoline from the first source; means for direct fuel injection of liquid denatured ethanol from the second source; wherein during part of engine operating time, the engine is powered both by gasoline that is port fuel injected and ethanol that is directly injected; and wherein during part of the operating time the instantaneous ethanol energy fraction is at least 20%; and a fuel management system which increases the ethanol energy fraction with increasing torque so that it is sufficient to prevent knock; and wherein the turbocharged direct injection spark ignition engine is operated at a substantially stoichiometric air/fuel ratio. 2. A turbocharged, spark ignition engine which uses port fuel injection of gasoline from a first source in addition to direct fuel injection of liquid denatured ethanol from a second source comprising: a spark ignition engine; a turbocharger; means for port fuel injection of gasoline from the first source; means for direct fuel injection of liquid denatured ethanol from the second source; wherein during part of the engine operating time, the engine is powered both by gasoline that is port fuel injected and ethanol that is directly injected; and wherein during part of the operating time the instantaneous ethanol energy fraction is at least 20%; and wherein the ethanol is directly injected in such an amount that the evaporative cooling of the fuel/air charge by the directly injected ethanol combined with the higher octane number of the ethanol enhances the octane number by at least 20 octane numbers; and a fuel management system including a microprocessor which increases the ethanol energy fraction with increasing torque so that it is sufficient to prevent knock; and wherein the turbocharged direct injection spark ignition engine is operated at a substantially stoichiometric air/fuel ratio. 3. A turbocharged, spark ignition engine which uses portfuel injection of gasoline from a first source in addition to direct fuel injection of liquid denatured ethanol from a second source comprising: a spark ignition engine; a turbocharger; means for port fuel injection of gasoline from the first source; means for direct injection of liquid denatured ethanol from the second source; wherein during part of the engine operating time, the engine is powered both by gasoline that is port fuel injected and by ethanol that is directly injected; and wherein during part of the operating time the instantaneous ethanol energy fraction is at least 20%; and wherein the ethanol is directly injected in an amount such that the evaporative cooling of the fuel/air charge by the directly injected ethanol combined with the higher octane number of the ethanol enhances the octane number by at least 20 octane numbers; and a fuel management system including a microprocessor which increases the ethanol energy fraction with increasing torque so that it is sufficient to prevent knock; and wherein the fuel management system minimizes ethanol use by using information from a knock detector; and wherein the turbocharged direct injection spark ignition engine is operated at a substantially stoichiometric air/fuel ratio. 4. A turbocharged spark ignition engine which uses port fuel injection of gasoline from a first source in addition to direct injection of liquid denatured ethanol from a second source comprising: a spark ignition engine; a turbocharger; means for port fuel injection of gasoline from the first source; means for direct injection of liquid denatured ethanol from the second source; wherein during part of the engine operating time, the engine is powered by a fuel that consists of both gasoline that is port fuel injected and ethanol that is directly injected; and wherein under some operating conditions the instantaneous ethanol energy fraction is at least 20%; and wherein the ethanol is directly injected in an amount such that the evaporative cooling of the fuel/air charge by the directly injected ethanol combined with the higher octane number of the ethanol enhances the octane number by at least 20 octane numbers; and a fuel management system including a microprocessor which increases the ethanol energy fraction with increasing torque so that it is sufficient to prevent knock; and wherein the fuel management system minimizes the ethanol use by using information from a knock sensor; and wherein the turbocharged direct injection spark ignition engine is operated at a substantially stoichiometric air /fuel ratio; wherein the fuel management microprocessor uses information about the level of ethanol in the second source to control the turbocharger; and further wherein the turbocharging is eliminated or reduced when there is no ethanol in the second source.