Internal combustion engine and heat engine with multiple heat exchangers
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60H-003/00
F01N-005/02
F28F-027/02
G05D-023/00
F01N-003/02
F02G-003/00
F01K-023/10
F01K-003/18
F01K-023/06
F02G-005/04
F22B-001/18
출원번호
US-0406486
(2009-03-18)
등록번호
US-8931545
(2015-01-13)
우선권정보
DE-10 2006 043 835 (2006-09-19)
발명자
/ 주소
Freymann, Raymond
Strobl, Wolfgang
Huebner, Walter
Obieglo, Andreas
Doemeland, Peter
Kraus, Norbert
Becker, Juergen
Hoetger, Michael
Goebel, Christian
Gensicke, Goeran
출원인 / 주소
Bayerische Motoren Werke Aktiengesellschaft
대리인 / 주소
Crowell Moring LLP
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
A heat exchanger arrangement is provided for an internal-combustion engine having a heat engine, which converts hot steam of a working medium by way of an expansion device to kinetic energy. The working medium, that can be delivered by a pump, can be heated in a first heat exchanger by a coolant and
A heat exchanger arrangement is provided for an internal-combustion engine having a heat engine, which converts hot steam of a working medium by way of an expansion device to kinetic energy. The working medium, that can be delivered by a pump, can be heated in a first heat exchanger by a coolant and in a second heat exchanger by an exhaust gas of the internal-combustion engine. In the delivery direction, the working medium first flows through the first heat exchanger and, subsequently, through the second heat exchanger. The exhaust gas can flow through the first heat exchanger.
대표청구항▼
1. A heat exchanger for an internal-combustion engine, comprising: a heat engine which converts hot steam of a working medium to kinetic energy via an expansion device;a pump for delivering the working medium;a first heat exchanger operatively configured to heat the working medium via coolant and ex
1. A heat exchanger for an internal-combustion engine, comprising: a heat engine which converts hot steam of a working medium to kinetic energy via an expansion device;a pump for delivering the working medium;a first heat exchanger operatively configured to heat the working medium via coolant and exhaust gas of the internal-combustion engine; anda second heat exchanger operatively configured to heat the working medium via the exhaust gas of the internal-combustion engine,a third heat exchanger operatively configured to heat the working medium via the exhaust gas of the internal-combustion engine,wherein in a delivery direction, the working medium first flows through the first heat exchanger and, subsequently, through the second heat exchanger,in a direction counter to the delivery direction, the exhaust gas is flowable first through the second heat exchanger and then through the first heat exchanger,the first heat exchanger comprises a first heat transfer device operatively configured for exchange of heat between the exhaust gas and the working medium provided to an inlet of the first heat transfer device, and a second heat transfer device operatively configured for exchange of heat between the coolant and the working medium,the first heat exchanger further comprises a working medium branch junction arranged to direct the working medium to at least one of the first heat transfer device and the second heat transfer devicea first bypass provided for the exhaust gas and a second bypass provided for the working medium entering a first branch line toward the first heat transfer device, wherein when the first bypass is in a bypass position the exhaust gas is blocked from entering the first heat transfer device and when the second bypass is in a bypass position the working medium is blocked from entering the first heat transfer device,a first working medium injection device arranged to inject additional working medium into the first heat transfer device in addition to the working medium provided to the inlet of the first heat transfer device,a third bypass provided for the coolant and a fourth bypass provided for the working medium entering a second branch line toward the second heat transfer device, wherein when the third bypass is in a bypass position the coolant is blocked from entering the second heat transfer device and when the fourth bypass is in a bypass position the working medium is blocked from entering the second heat transfer device, andthe second heat exchanger comprises a third heat transfer device operatively configured for exchange of heat between the working medium received from the first heat exchanger and exhaust gas, anda fifth bypass provided for the working medium to bypass the third heat transfer device, wherein when the fifth bypass is in a bypass position the working medium is blocked from entering the third heat transfer device,the third heat exchanger comprises a fourth heat transfer device through which the exhaust gas of the internal-combustion engine is flowable before flowing to the second heat exchanger and through which working fluid is received from the second heat exchanger,a sixth bypass provided for the working medium to bypass the fourth heat transfer device, and a seventh bypass provided for the exhaust gas to bypass the fourth heat transfer device, wherein when the seventh bypass is in a bypass position the exhaust gas is blocked from entering the fourth heat transfer device and when the sixth bypass is in a bypass position the working medium is blocked from entering the fourth heat transfer device,a second working medium injection device arranged to inject additional working medium into the fourth heat transfer device in addition to the working medium provided to the inlet of the fourth heat transfer device, andthe second heat transfer device is a component of an exhaust gas purification system. 2. The heat exchanger according to claim 1, wherein the working medium flows in parallel through the first heat transfer device and the second heat transfer device. 3. The heat exchanger according to claim 1, wherein the working medium flows successively through one of the first and second heat transfer devices and then through the other of the first and second heat transfer devices. 4. The heat exchanger according to claim 3, wherein the working medium first flows through the second heat transfer device and then subsequently through the first heat transfer device. 5. The heat exchanger according to claim 1, further comprising an auxiliary heater for the working medium, the auxiliary heater being operatively arranged in at least one of the first and second heat exchangers. 6. The heat exchanger according to claim 1, further comprising at least one of an additional second heat exchanger and an additional third heat exchanger operatively arranged in the flow direction of the working medium behind the second heat exchanger.
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이 특허에 인용된 특허 (2)
Wicks Frank E. (1 Nicholas Ave. Schenectady NY 12309), Combined cycle engine.
Lee Daniel T. (Clifton Park NY) Tomlinson Leroy O. (Schenectady NY), Method of effecting start-up of a cold steam turbine system in a combined cycle plant.
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