초록 ▼

A gaseous-fueled reciprocating internal combustion engine includes a carburetor having a throttle valve that is controlled by a speed governor. A proportional fuel control valve is disposed intermediate a fuel supply and the carburetor, and is controlled by an air fuel computing device. The computin

A gaseous-fueled reciprocating internal combustion engine includes a carburetor having a throttle valve that is controlled by a speed governor. A proportional fuel control valve is disposed intermediate a fuel supply and the carburetor, and is controlled by an air fuel computing device. The computing device generates a control signal to adjust the fuel control valve based on a governor sensed variable indicative of engine speed, sensed engine torque, a governor output signal from the governor indicative of an opening position of the throttle valve wherein 100% corresponds to a wide open throttle position, and 0% corresponds to a closed position, and a lean combustion control map containing predetermined set point values stored in memory. During operation, the control valve is responsive to the control signal generated by the computing device for adjustment of a fuel flow therethrough so as to obtain a ratio of air to fuel provided to the engine that is substantially at a lean misfire limit of the engine, thereby reducing fuel consumption, NO.sub.x emissions, and reducing exhaust gas temperatures. Alternatively, the control signal is generated using engine speed alone.

대표청구항 ▼

[ We claim:] [1.]1. A speed-governed power generation system comprising:a gaseous fueled stationary internal combustion engine having an air and fuel delivery apparatus in communication with a plurality of combustion chambers of said engine;a governor configured to adjust said air and fuel delivery

[ We claim:] [1.]1. A speed-governed power generation system comprising:a gaseous fueled stationary internal combustion engine having an air and fuel delivery apparatus in communication with a plurality of combustion chambers of said engine;a governor configured to adjust said air and fuel delivery apparatus in response to a first signal corresponding to a desired engine speed and a second signal indicative of an actual engine speed, said governor being further configured to output a third signal indicative of a governor output position;a control valve intermediate a supply of fuel and said air and fuel delivery apparatus;a computing device configured to generate an output signal for adjusting said control valve in response to said second signal indicative of engine speed alone;wherein said control valve is responsive to said computing device output signal for adjustment of a fuel flow therethrough so as to obtain a ratio of air to fuel provided to the engine that is substantially at a lean misfire limit of the engine.