Waste heat recovery system including a clutched feedpump
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01N-005/02
F02G-005/02
F01K-023/06
F01K-023/10
출원번호
US-0102095
(2013-12-10)
등록번호
US-9556778
(2017-01-31)
발명자
/ 주소
Zigan, James A.
Perr, Andrew P.
Ernst, Timothy C.
출원인 / 주소
Cummins Inc.
대리인 / 주소
Foley & Lardner LLP
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
An engine including a WHR system includes a clutch positioned to engage or disengage a WHR feedpump that moves working fluid through a WHR circuit. The clutch engages or disengages the feedpump under certain operating conditions of the engine and/or the WHR system, and/or at the request of an operat
An engine including a WHR system includes a clutch positioned to engage or disengage a WHR feedpump that moves working fluid through a WHR circuit. The clutch engages or disengages the feedpump under certain operating conditions of the engine and/or the WHR system, and/or at the request of an operator of the engine. Conditions may include cool or cold components, and insufficient working fluid. The operator may also request the clutch be disengaged, such as might be advantageous if the operator detects an operational problem with the WHR system or determines there is an advantage to operating the engine without the WHR system.
대표청구항▼
1. An internal combustion engine, comprising: a shaft rotatably driven by the engine;a waste heat recovery system, including: a working fluid circuit;a fluid management system including a condenser, a sub-cooler, and a receiver positioned along the working fluid circuit;a heat exchange system includ
1. An internal combustion engine, comprising: a shaft rotatably driven by the engine;a waste heat recovery system, including: a working fluid circuit;a fluid management system including a condenser, a sub-cooler, and a receiver positioned along the working fluid circuit;a heat exchange system including a recuperator and an EGR boiler positioned along the working fluid circuit;a feedpump positioned along the working fluid circuit and operably driven by the shaft to move a working fluid through the working fluid circuit; andan energy conversion system including an expander positioned along the working fluid circuit downstream from the heat exchange system and upstream from the fluid management system;a clutch operable in an engaged position to drivingly connect the shaft to the feedpump and a disengaged position to disconnect the shaft from the feedpump; anda controller operable to receive a waste heat recovery command signal, and to generate and transmit a clutch control signal to the clutch to move the clutch between the engaged position and the disengaged position, based on the waste heat recovery command signal, wherein at the engaged position, the controller selectively places the feedpump in connection to at least one of the receiver through a first flow path, the sub-cooler through a second flow path, the recuperator through a third flow path, and the EGR boiler through a fourth flow path based on the waste heat recovery command signal,wherein the controller, based on a length of time interval for which the engine has been operating, controls the engaged or disengaged position of the clutch and which flow path from the first, second, third, and fourth flow paths to connect the feedpump at the engaged position of the clutch to prevent a two-phase working fluid flow from reaching the energy conversion system. 2. The internal combustion engine of claim 1, wherein the waste heat recovery command signal is a waste heat recovery off signal. 3. The internal combustion engine of claim 2, wherein the waste heat recovery off signal is one of a waste heat recovery system off signal, a vehicle off signal, and an operator off signal. 4. The internal combustion engine of claim 1, the internal combustion engine further including a working fluid temperature sensor positioned along the working fluid circuit and the waste heat recovery command signal is a working fluid temperature signal transmitted by the working fluid temperature sensor. 5. The internal combustion engine of claim 4, wherein the working fluid temperature sensor is positioned along the working fluid circuit downstream from the heat exchange system and upstream from the energy conversion system. 6. The internal combustion engine of claim 1, further including an EGR circuit and an EGR circuit temperature sensor, the heat exchange system further including an EGR heat exchanger positioned along the EGR circuit and the working fluid circuit, and the EGR circuit temperature sensor positioned along the EGR circuit downstream from the EGR heat exchanger, and the waste heat recovery command signal is an EGR circuit temperature signal transmitted by the EGR circuit temperature sensor. 7. The internal combustion engine of claim 1, wherein the waste heat recovery command signal is a fluid level signal transmitted by a fluid level sensor positioned along the working fluid circuit. 8. The internal combustion engine of claim 7, wherein the fluid level sensor is positioned on the fluid management system. 9. The internal combustion engine of claim 1, wherein the waste heat recovery command signal is a plurality of pressure signals transmitted by a plurality of pressure sensors positioned along the working fluid circuit. 10. The internal combustion engine of claim 9, wherein one of the plurality of pressure sensors is positioned upstream from the feedpump, and one of the plurality of pressure sensors is positioned downstream from the feedpump. 11. The internal combustion engine of claim 1, wherein the heat exchange system further includes an EGR superheater. 12. An internal combustion engine, comprising: a shaft rotatably driven by the engine;a waste heat recovery system, including: a working fluid circuit;a fluid management system including a condenser, a sub-cooler, and a receiver positioned along the working fluid circuit;a heat exchange system including a recuperator and an EGR boiler positioned along the working fluid circuit;a feedpump positioned along the working fluid circuit and operably driven by the shaft to move a working fluid through the working fluid circuit, andan energy conversion system including an expander positioned along the working fluid circuit downstream from the heat exchange system and upstream from the fluid management system;a clutch operable in an engaged position to drivingly connect the shaft to the feedpump, and a disengaged position to disconnect the shaft from the feedpump;a sensor positioned to measure at least one of a plurality of conditions of the waste heat recovery system including a working fluid temperature upstream from the energy conversion system, a working fluid level, a working fluid pressure upstream from the feedpump, a working fluid pressure downstream from the feedpump, and a heat exchange system outlet fluid temperature, the sensor configured to transmit a condition signal; anda controller operable to receive the condition signal, to compare the condition signal to a predetermined condition value range, and to transmit a signal to the clutch to move the clutch from the engaged position to the disengaged position if the condition signal is outside the predetermined condition value range, wherein at the engaged position, the controller selectively places the feedpump in connection to at least one of the receiver through a first flow path, the sub-cooler through a second flow path, the recuperator through a third flow path, and the EGR boiler through a fourth flow path based on the waste heat recovery command signal,wherein the controller, based on a length of time interval for which the engine has been operating, controls the engaged or disengaged position of the clutch and which flow path from the first, second, third, and fourth flow paths to connect the feedpump at the engaged position of the clutch to prevent a two-phase working fluid flow from reaching the energy conversion system. 13. The internal combustion engine of claim 12, further including an EGR circuit, the heat exchange system further including an EGR heat exchanger positioned along the EGR circuit and the working fluid circuit, and the sensor is positioned to measure the EGR circuit temperature downstream from the EGR heat exchanger. 14. The internal combustion engine of claim 13, wherein the EGR heat exchanger further includes an EGR superheater. 15. The internal combustion engine of claim 12, wherein the sensor is a fluid level sensor positioned on the fluid management system. 16. The internal combustion engine of claim 1, wherein at the engaged position, the feedpump is in connection and drives the working fluid to the receiver and the sub-cooler during normal operation of the engine. 17. The internal combustion engine of claim 1, wherein at the engaged position, the feedpump is in connection and drives the working fluid to the EGR boiler if a temperature of the working fluid is lower than a predetermined level.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (2)
Benson, Dwayne M., Cooling and heating apparatus and process utilizing waste heat and method of control.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.