[미국특허]
Alternate fuel blending systems and associated methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02D-041/00
F02D-019/08
F02D-019/06
F02D-029/02
출원번호
US-0878582
(2015-10-08)
등록번호
US-9964054
(2018-05-08)
발명자
/ 주소
Payne, Edward A.
Williams, Rodger Karl
출원인 / 주소
Immixt, LLC
대리인 / 주소
Withrow & Terranova, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
46
초록▼
An alternative fueling system configured to consume alternative fuels by renewable identification number (RIN) assignment to enforce neat consumption; or moreover and more specifically, to utilize that RIN assignment whenever neat consumption is possible, thereby lessening usage constraints upon the
An alternative fueling system configured to consume alternative fuels by renewable identification number (RIN) assignment to enforce neat consumption; or moreover and more specifically, to utilize that RIN assignment whenever neat consumption is possible, thereby lessening usage constraints upon the remaining stock(s) of renewable fuel as an example, and/or to provide purging of the alternative fuel from the engine on shutdown.
대표청구항▼
1. A fuel control system for controlling delivery of a primary fuel stored in a primary fuel tank and an alternate fuel stored in an alternate fuel tank to an internal combustion engine of a vehicle and selectively purging the alternate fuel from the engine, comprising: an electronic controller conf
1. A fuel control system for controlling delivery of a primary fuel stored in a primary fuel tank and an alternate fuel stored in an alternate fuel tank to an internal combustion engine of a vehicle and selectively purging the alternate fuel from the engine, comprising: an electronic controller configured to: control delivery of the primary fuel and the alternate fuel to a flow cell,operate a source valve to control delivery of supply fuel to the engine, andoperate a bypass valve to control delivery of excess fuel from the engine that was delivered to and not consumed by the engine,wherein the electronic controller is configured to operate in a plurality of modes, the plurality of modes comprising: a decoupled mode to control the source valve to source supply fuel from the primary fuel tank to the engine and control the bypass valve to direct excess fuel from the engine to the primary fuel tank;an active mode to control the source valve to source supply fuel from the flow cell to the engine and control the bypass valve to direct excess fuel from the engine to the flow cell; anda purging mode to control the source valve to source supply fuel from the primary fuel tank to the engine and control the bypass valve to direct excess fuel from the engine to the flow cell. 2. The fuel control system of claim 1, wherein: the source valve is in fluid communication with the flow cell, the primary fuel tank, and the engine, the source valve configured to selectively source fluid to the engine from one of (1) the primary fuel tank and (2) the flow cell; andthe bypass valve is in fluid communication with the flow cell, the primary fuel tank, and the engine, the bypass valve configured to selectively direct fluid from the engine to one of (1) the primary fuel tank and (2) the flow cell. 3. The fuel control system of claim 1, wherein the primary fuel comprises diesel and the alternate fuel comprises biodiesel. 4. The fuel control system of claim 1, wherein a default mode comprises the decoupled mode. 5. The fuel control system of claim 1, wherein in active mode the electronic controller is configured to automatically replenish fuel volume of the flow cell at a detected volume threshold with delivery of at least one of the primary fuel or the alternate fuel. 6. The fuel control system of claim 1, wherein the electronic controller is configured to transition from the active mode to the purging mode with the engine running. 7. The fuel control system of claim 1, wherein upon detection of engine duress or system failure the electronic controller is configured to switch operation from the active mode. 8. The fuel control system of claim 7, wherein upon detection of engine duress or system failure the electronic controller is configured to switch operation from the active mode to the purging mode. 9. The fuel control system of claim 7, wherein detection of engine duress comprises detection of vehicle deceleration concurrent with a wide open throttle of the vehicle. 10. The fuel control system of claim 1, wherein the electronic controller is configured to switch operation from active mode upon recurrence of engine duress detection within a preconfigured time interval. 11. The fuel control system of claim 1, wherein the electronic controller is configured to switch operation from the active mode to the purging mode to the decoupled mode. 12. The fuel control system of claim 1, wherein the electronic controller is configured to operate in the purging mode for a predetermined period of time as measured by a purge duration timer. 13. The fuel control system of claim 1, wherein upon detection of shutoff the electronic controller is configured to operate in the purging mode for a predetermined period of time as measured by a purge delay timer. 14. The fuel control system of claim 13, wherein upon initialization of the purge delay timer, the electronic controller is configured to monitor for engine restart and expiration of the predetermined time period. 15. The fuel control system of claim 14, wherein if engine restart is detected, the electronic controller is configured to return to a previous operating mode. 16. The fuel control system of claim 13, wherein upon initialization of the purge delay timer, the electronic controller is configured to monitor for engine restart, expiration of the predetermined time period, and minimum temperature threshold corresponding to a fuel injector rail temperature. 17. The fuel control system of claim 1, wherein if the electronic controller detects expiration of the predetermined time period of the purge delay timer or crossing the minimum temperature threshold corresponding to the fuel injector rail temperature, the electronic controller is configured to restart an injector rail fuel pump to reinitiate circulation within fuel injector rails. 18. The fuel control system of claim 17, wherein upon restart of the injector rail fuel pump, a pressurization timer is initialized to reestablish full pressure conditions of the inject rail fuel pump, and upon expiration of the pressurization timer, the electronic controller is configured to operate in the purging mode. 19. The fuel control system of claim 1, further comprising a multi port fuel injector rail comprising an inlet port configured to receive fuel, one or more coupling ports configured to supply fuel to fuel injectors, and an outlet port in fluid communication with a bypass pressure regulator. 20. The fuel control system of claim 1, further comprising a multi port fuel injector rail comprising an inlet port configured to receive fuel, one or more coupling ports configured to supply fuel to fuel injectors, and an outlet port in fluid communication with a second fuel injection rail.
Herdin Gnther (Jenbach ATX) Adolf Ingobert (Innsbruck ATX) Htger Michael (Berlin DEX) Picker Walter (Schwaz ATX) Pockstaller Franz (Jenbach ATX), Apparatus for sensing the engine parameters of an internal combustion engine.
Sulatisky, Michael Theodore; Hill, Sheldon George; Song, Yimin; Young, Kimberley Allan; Gnanam, Gnanaprakash, Neural control system and method for alternatively fueled engines.
William K. Capshaw ; John C. Hedrick ; David W. Naegeli ; Michael G. Ross, On-board fuel vapor collection, condensation, storage and distribution system for a vehicle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.