Multi-fuel system for internal combustion engines
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-019/06
F02M-025/06
F02D-019/08
F02B-043/00
F01M-013/00
F02M-043/00
F02D-041/00
F02B-003/06
출원번호
US-0308103
(2014-06-18)
등록번호
US-9279372
(2016-03-08)
발명자
/ 주소
Monros, Serge V.
출원인 / 주소
Monros, Serge V.
대리인 / 주소
Kelly & Kelley, LLP
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
In a multi-fuel system for diesel engines, natural gas is mixed with diesel fuel and conditioned in a mixing chamber before being injected into the mixing chamber of the engine. Filtered blow-by gas may also be introduced into the combustion chamber. A computerized controller is used to determine an
In a multi-fuel system for diesel engines, natural gas is mixed with diesel fuel and conditioned in a mixing chamber before being injected into the mixing chamber of the engine. Filtered blow-by gas may also be introduced into the combustion chamber. A computerized controller is used to determine and control the proportion of diesel fuel, natural gas fuel, the mixing and conditioning of these fuels, and the supply of filtered blow-by gas.
대표청구항▼
1. A multi-fuel engine system, comprising: a diesel engine having a diesel tank fluidly connected to a combustion chamber by a first supply line;a natural gas tank fluidly connected to the combustion chamber by a second supply line;a mixing chamber disposed in-line with the first and second supply l
1. A multi-fuel engine system, comprising: a diesel engine having a diesel tank fluidly connected to a combustion chamber by a first supply line;a natural gas tank fluidly connected to the combustion chamber by a second supply line;a mixing chamber disposed in-line with the first and second supply lines, wherein the mixing chamber mixes diesel fuel from the diesel tank and natural gas from the natural gas tank to form a multi-fuel mixture before the combustion chamber;a microcontroller coupled to a sensor monitoring an operational characteristic of the diesel engine, wherein the mixing chamber is responsive to the microcontroller for selectively modulating formation of the multi-fuel mixture; anda blow-by gas system including a PCV valve disposed in-line with a recirculating line extending from a crankcase of the diesel engine to the mixing chamber. 2. The multi-fuel engine system of claim 1, wherein the mixing chamber processes the multi-fuel mixture by expanding, aerating, pressurizing, heating, and/or cooling. 3. The multi-fuel engine system of claim 2, wherein the mixing chamber is responsive to the microcontroller for processing the multi-fuel mixture. 4. The multi-fuel engine system of claim 1, wherein the mixing chamber mixes the diesel fuel and the natural gas in a range from pure diesel to a 1:1 ratio, in response to a signal from the microcontroller. 5. The multi-fuel engine system of claim 1, wherein the natural gas tank comprises a puncture resistant material or carbon fiber. 6. The multi-fuel engine system of claim 1, wherein the natural gas tank and the second supply line are pressurized. 7. The multi-fuel engine system of claim 1, wherein the operational characteristic monitored by the sensor comprises engine temperature, battery charge, engine RPMs, rate of acceleration, exhaust features, and/or PCV valve position. 8. The multi-fuel engine system of claim 1, wherein the recirculating line of the blow-by gas system further comprises an oil filter between the crankcase and the PCV valve. 9. The multi-fuel engine system of any of claim 1-7 or 8, further comprising a fuel injector rail on the diesel engine and a fuel injector extending from the fuel injector rail to the combustion chamber, wherein the fuel injector is responsive to the microcontroller. 10. A multi-fuel engine system, comprising: a diesel engine having a diesel tank fluidly connected to a combustion chamber by a first supply line;a natural gas tank fluidly connected to the combustion chamber by a second supply line;a mixing chamber disposed in-line with the first and second supply lines, wherein the mixing chamber mixes diesel fuel from the diesel tank and natural gas from the natural gas tank to form a multi-fuel mixture before the combustion chamber, wherein the diesel fuel and the natural gas are mixed in a range from pure diesel to a 1:1 ratio, and wherein the mixing chamber processes the multi-fuel mixture by expanding, aerating, pressurizing, heating, and/or cooling;a blow-by gas system comprising a PCV valve disposed in-line with a recirculating line extending from a crankcase of the diesel engine to the mixing chamber; anda microcontroller coupled to a sensor monitoring an operational characteristic of the diesel engine, wherein the mixing chamber is responsive to the microcontroller for selectively modulating mixture of the diesel fuel and the natural gas to form the multi-fuel mixture, and wherein the mixing chamber is responsive to the microcontroller for processing the multi-fuel mixture. 11. The multi-fuel engine system of claim 10, wherein the natural gas tank comprises a puncture resistant material or carbon fiber. 12. The multi-fuel engine system of claim 10, wherein the natural gas tank and the second supply line are pressurized. 13. The multi-fuel engine system of claim 10, wherein the operational characteristic monitored by the sensor comprises engine temperature, battery charge, engine RPMs, rate of acceleration, exhaust features, and/or PCV valve position. 14. The multi-fuel engine system of claim 10, wherein the recirculating line of the blow-by gas system further comprises an oil filter between the crankcase and the PCV valve. 15. The multi-fuel engine system of any of claim 10-13 or 14, further comprising a fuel injector rail on the diesel engine and a fuel injector extending from the fuel injector rail to the combustion chamber, wherein the fuel injector is responsive to the microcontroller. 16. A multi-fuel engine system, comprising: a diesel engine having a fuel injector rail, a fuel injector extending from the fuel injector rail into a combustion chamber, and a diesel tank fluidly connected to the combustion chamber by a first supply line through the fuel injector rail and fuel injector;a natural gas tank fluidly connected to the combustion chamber by a second supply line;a mixing chamber disposed in-line with the first and second supply lines, wherein the mixing chamber mixes diesel fuel from the diesel tank and natural gas from the natural gas tank to form a multi-fuel mixture before the combustion chamber;a microcontroller coupled to a sensor monitoring an operational characteristic of the diesel engine, wherein the mixing chamber is responsive to the microcontroller for selectively modulating formation of the multi-fuel mixture, and the fuel injector is responsive to the microcontroller for adding the multi-fuel mixture to the combustion chamber; anda blow-by gas system comprising an oil filter and a PCV valve disposed in-line with a recirculating line extending from a crankcase of the diesel engine to the mixing chamber. 17. The multi-fuel engine system of claim 16, wherein the mixing chamber is responsive to the microcontroller for processing the multi-fuel mixture by expanding, aerating, pressurizing, heating, and/or cooling. 18. The multi-fuel engine system of claim 16, wherein the mixing chamber mixes the diesel fuel and the natural gas in a range from pure diesel to a 1:1 ratio, in response to a signal from the microcontroller. 19. The multi-fuel engine system of claim 16, wherein the natural gas tank comprises a puncture resistant material or carbon fiber, and the natural gas tank and the second supply line are pressurized. 20. The multi-fuel engine system of claim 16, wherein the operational characteristic monitored by the sensor comprises engine temperature, battery charge, engine RPMs, rate of acceleration, exhaust features, and/or PCV valve position.
Walter Richard P. (Southfield MI) Sisson Albert E. (Farmington Hills MI) Erwin Louis R. (Livonia MI) Kelso Charles R. (Farmington MI), Electronically controlled diesel unit injector.
Flohr, Andreas; Werner, Roland, Method for operating an internal combustion engine based on a characteristic value determined from a lamda value, and internal combustion engine.
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