Turbocompound scheme, in particular in the field of industrial vehicles
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-037/12
F02B-037/00
F02B-039/10
F02B-041/10
F01N-005/04
출원번호
US-0577143
(2014-12-19)
등록번호
US-9777620
(2017-10-03)
우선권정보
EP-13198836 (2013-12-20)
발명자
/ 주소
Jaeger, Laurentius
출원인 / 주소
FPT Motorenforschung AG
대리인 / 주소
Blank Rome LLP
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
An improved turbocompound system, in particular in the field of industrial vehicles. A first turbine drives a fresh air compressor. A power turbine is arranged downstream of the first turbine and operatively coupled with the crankshaft of the engine through a clutch. A first electric motor/generator
An improved turbocompound system, in particular in the field of industrial vehicles. A first turbine drives a fresh air compressor. A power turbine is arranged downstream of the first turbine and operatively coupled with the crankshaft of the engine through a clutch. A first electric motor/generator is operatively coupled with the turbocharger system. A second electric motor/generator is operatively coupled with the power turbine. The first and second electric motor/generators are electrically interconnected, and controlled as a motor or a generator in an opposite way with respect to each other, so that the electric energy produced by one is consumed by the other and vice versa.
대표청구항▼
1. A turbocompound system, in particular in the field of industrial vehicles, comprising a combustion engine having a crankshaft,a first turbocharger system comprising a first turbine and a fresh air compressor, wherein the first turbine drives the fresh air compressor,a power turbine arranged downs
1. A turbocompound system, in particular in the field of industrial vehicles, comprising a combustion engine having a crankshaft,a first turbocharger system comprising a first turbine and a fresh air compressor, wherein the first turbine drives the fresh air compressor,a power turbine arranged downstream of said first turbine, operatively coupled with said crankshaft through a clutch,a first electric motor/generator coupled with said turbocharger system, a second electric motor/generator coupled with said power turbine, the first and second electric motor/generators being electrically interconnected, anda control unit programmed to control said first and second electric motor/generators to operate either as a motor or as a generator and is programmed to control one of said first and second electric motor/generators to operate in an opposite way with respect to the other, so that:when the first electric motor/generator operates as a generator producing electric energy, the second electric motor/generator operates as a motor, and the electric energy produced by the first electric motor/generator is consumed by the second electric motor/generator, andwhen the second electric motor/generator operates as a generator producing electric energy, the first electric motor/generator operates as a motor, and the electric energy produced by the second electric motor/generator is consumed by the first electric motor/generator. 2. The turbocompound system according to claim 1, wherein said control unit is programmed to control said first and second electric motor/generators according to said opposite way while the combustion engine is in an engine fired condition and/or in motored and engine brake conditions or in transient and/or in stationary operations of the combustion engine. 3. The turbocompound system according to claim 2, wherein said control unit is programmed to check the following conditions: the combustion engine is fired and it is required to decrease a speed of the fresh air compressor and when said conditions are verified, said control unit is programmed to control said first electric motor/generator to work as a generator and said second electric motor/generator to work as a motor and to command a closing of said clutch in order to supplement the crankshaft. 4. The turbocompound system according to claim 3, wherein, said control unit is programmed to reduce automatically an amount of fuel supplied to the combustion engine—with respect to a corresponding position of an accelerator pedal—on the basis of a mechanical power provided by said second electric motor/generator. 5. The turbocompound system according to claim 2, wherein said control unit is programmed to check the following conditions: high engine speed during combustion engine braking and when said conditions are verified, said control unit is programmed to command the opening of said clutch and to control said second electric motor/generator to work as a generator by limiting a speed of the power turbine and to control said first electric motor/generator to work as a motor to increase a speed of the fresh air compressor, in order to increase a combustion engine braking torque. 6. The turbocompound system according to claim 1, wherein said control unit is able to check a condition where it is required to increase a speed of the fresh air compressor and when said condition is verified, said control unit is programmed to control said first electric motor/generator to work as a motor and said second electric motor/generator to work as a generator and to command the closing of said clutch. 7. The turbocompound system according to claim 6, wherein said control unit is programmed to perform said control when at least one of the following further conditions are verified: the combustion engine is fired or the combustion engine is motored or in low or moderate speed of a braking condition. 8. An industrial vehicle comprising the turbocompound system according to claim 1. 9. The turbocompound system according to claim 1, wherein all of the electrical energy is produced and consumed without battery storage. 10. A method of controlling a turbocompound system, in particular in the field of industrial vehicles, the turbocompound system comprising a combustion engine having a crankshaft,a first turbocharger system, wherein a first turbine drives a fresh air compressor, a power turbine arranged downstream of said first turbine and coupled with said crankshaft through a clutch,a first electric motor/generator coupled with said first turbocharger system, a second electric motor/generator is operatively coupled with said power turbine, the first and second electric motor/generators being electrically interconnected, and wherein a control unit is programmed to control each of said first and second electric motor/generators to operate either as a motor or as a generator, the method comprisingcontrolling each of said first and second electric motor/generators to operate in an opposite way with respect to the other, so that:when the first electric motor/generator operates as a generator producing electric energy, the second electric motor/generator operates as a motor, and the electric energy produced by the first electric motor/generator is consumed by the second electric motor/generator, andwhen the second electric motor/generator operates as a generator producing electric energy, the first electric motor/generator operates as a motor, and the electric energy produced by the second electric/motor generator is consumed by the first electric/motor generator. 11. The method according to claim 10, wherein said procedure to control said first and second electric motor/generators according to said opposite way, is performed while the combustion engine is in an engine fired condition and/or in motored and engine brake conditions or in transient and/or in stationary operations of the combustion engine. 12. The method according to claim 11, further comprising the checking of the following conditions: the combustion engine is fired and it is required to decrease a speed of the fresh air compressor and when said conditions are verified, the procedure comprises the controlling of said first electric motor/generator to work as a generator and said second electric motor/generator to work as a motor and the commanding of a closing of said clutch in order to supplement the crankshaft. 13. The method according to claim 11, further comprising the checking of the following conditions: high engine speed during combustion engine braking and when said conditions are verified, the procedure comprises commanding of the opening of said clutch and controlling said second electric motor/generator to work as a generator by limiting a speed of the power turbine and controlling said first electric motor/generator to work as a motor to increase a speed of the fresh air compressor, in order to increase a braking torque of the combustion engine. 14. The method according to claim 13, further comprising the step of reducing automatically an amount of fuel supplied to the combustion engine, with respect to a corresponding position of an accelerator pedal, on the basis of a mechanical power provided by said first electric motor/generator. 15. The method according to claim 10, wherein said procedure comprises checking a condition where it is required to increase a speed of the fresh air compressor and when said condition is verified, the procedure comprises controlling said first electric motor/generator to work as a motor and said second electric motor/generator to work as a generator and commanding a closing of said clutch. 16. The method according to claim 15, wherein said procedure is carried out when at least one of the following further conditions are verified: the combustion engine is fired or the combustion engine is motored or in low and moderate speed of a braking condition. 17. The method according to claim 10, wherein all of the electrical energy is produced and consumed without battery storage.
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이 특허에 인용된 특허 (11)
Kawamura Hideo (Samukawa JPX), Apparatus for recovering thermal energy from engine.
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