Twin turbo assembly and method for operating a twin turbo assembly
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/44
F02B-033/00
F02B-037/00
출원번호
US-0860161
(2010-08-20)
등록번호
US-8615999
(2013-12-31)
우선권정보
GB-0914570.7 (2009-08-20)
발명자
/ 주소
Andersson, Per
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Ingrassia Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A twin turbo assembly is provided for an automotive vehicle that includes a first and second air intake for, a first and second turbo charger that includes, but is not limited to a first and second compressor connected to the first air intake, a first and second intake duct connecting the first turb
A twin turbo assembly is provided for an automotive vehicle that includes a first and second air intake for, a first and second turbo charger that includes, but is not limited to a first and second compressor connected to the first air intake, a first and second intake duct connecting the first turbo charger to a combustion engine. A first and second bypass valve is provided to connect the first and second air intake, respectively to the first and second intake duct bypassing the first and second compressor. Overpressure inside the intake ducts can be discharged to a volume between the air filter and the respective compressor. The released pressure prevents or at least reduces the risk that compressed air inside the intake ducts may flow against the first compressor and the second compressor, so that the noise emission associated with this backflow is reduced or even prevented.
대표청구항▼
1. A method for operating a twin turbo assembly for an automotive vehicle that comprises a first turbo charger connected via a first combustion engine intake duct to a combustion engine and a second turbo charger connected via a second combustion engine intake duct to the combustion engine, comprisi
1. A method for operating a twin turbo assembly for an automotive vehicle that comprises a first turbo charger connected via a first combustion engine intake duct to a combustion engine and a second turbo charger connected via a second combustion engine intake duct to the combustion engine, comprising: substantially stepwise varying of a power of the combustion engine;at least partially discharging a compressed air of the first combustion engine intake duct via a first bypass valve and at least partially discharging the compressed air of the second combustion engine intake duct via a second bypass valve after the substantially stepwise varying of the power of the combustion engine, the first bypass valve and the second bypass valve being configured to operate with respect to at least one of a compressor pressure ration and opening timing such that both the first bypass valve and the second bypass valve are not open at the same time. 2. The method according to claim 1, further comprising discharging compressed air from the first combustion engine intake duct. 3. The method according to claim 1, wherein further comprising discharging compressed air from the second combustion engine intake duct. 4. The method according to claim 3, wherein the compressed air of the first combustion engine duct is partially discharged after closing a throttle valve for limiting air flow to the combustion engine. 5. The method according to claim 1, further comprising partially discharging compressed air of the first combustion engine intake duct after entering a coasting mode of the combustion engine. 6. The method according to claim 5, wherein the compressed air of the second combustion engine intake duct is partially discharged after closing a throttle valve for limiting air flow to the combustion engine. 7. The method according to claim 1, further comprising partially discharging compressed air of the second combustion engine intake duct after entering a coasting mode of the combustion engine. 8. A twin turbo assembly for an automotive vehicle, comprising: a first air intake configured to receive in an ambient air,a first turbo charger comprising a first compressor connected to the first air intake;a first combustion engine intake duct connecting the first turbo charger to a combustion engine;a second air intake configured to receive the ambient air;a second turbo charger comprising a second compressor connected to the second air intake;a second combustion engine intake duct connecting the second turbo charger to the combustion engine and connected to the first combustion engine intake duct;a first bypass valve connecting the first air intake to the first combustion engine intake duct and bypassing the first compressor, anda second bypass valve connecting the second air intake to the second combustion engine intake duct and bypassing the second compressor, the first bypass valve and the second bypass valve being configured to operate with respect to at least one of a compressor pressure ratio pr and opening time t such that both the first bypass valve and the second bypass valve are not open at the same time. 9. The twin turbo assembly according to claim 8, wherein the first bypass valve opens when the compressor pressure ratio pr is approximately 1.0≦pr≦2.0. 10. The twin turbo assembly according to claim 8, wherein the first bypass valve opens when the compressor pressure ratio pr is approximately 1.0≦pr≦1.6. 11. The twin turbo assembly according to claim 8, wherein the first bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦1.2. 12. The twin turbo assembly according to claim 8, wherein the first bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦1.1. 13. The twin turbo assembly according to claim 8, wherein the second bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦2.0. 14. The twin turbo assembly according to claim 8, wherein the second bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦1.6. 15. The twin turbo assembly according to claim 8, wherein the second bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦1.2. 16. The twin turbo assembly according to claim 8, wherein the second bypass valve opens when compressor pressure ratio pr is approximately 1.0≦pr≦1.1. 17. The twin turbo assembly according to claim 8, wherein the first bypass valve is configured to when the opening time t is approximately 0.1 s≦t≦0.6 s. 18. The twin turbo assembly according to claim 8, wherein the first bypass valve is configured to when the opening time t is approximately 0.15 s≦t≦0.5 s. 19. The twin turbo assembly according to claim 8, wherein the first bypass valve is configured to when the opening time t is approximately 0.2 s≦t≦0.4 s. 20. The twin turbo assembly according to claim 8, wherein the first bypass valve is configured to when the opening time t is approximately 0.25 s≦t≦0.3 s. 21. The twin turbo assembly according to claim 8, wherein the second bypass valve is configured to when the opening time t is approximately 0.1 s≦t≦0.6 s. 22. The twin turbo assembly according to claim 8, wherein the second bypass valve is configured to when the opening time t is approximately 0.15 s≦t≦0.5 s. 23. The twin turbo assembly according to claim 8 wherein the second bypass valve is configured to open when the opening time t is approximately 0.2 s≦t≦0.4 s. 24. The twin turbo assembly according to claim 8, wherein the second bypass valve is configured to when the opening time t is approximately 0.25 s≦t≦0.3 s. 25. The twin turbo assembly according to claim 8, wherein the first combustion engine intake duct and the second combustion engine intake duct are connected via a common collector duct to the combustion engine, wherein the common collector duct comprises a throttle valve. 26. The twin turbo assembly according to claim 8 wherein the first turbo charger comprises a first exhaust turbine connected via a first exhaust duct to the combustion engine and adapted to drive the first compressor and the second turbo charger comprises a second exhaust turbine connected via a second exhaust duct to the combustion engine and configured to drive the second compressor, wherein the first exhaust turbine is bypassed from the first exhaust duct to a first outlet duct via a first waste gate and the second exhaust turbine is bypassed from the second exhaust duct to a second outlet duct via a second waste gate. 27. The twin turbo assembly according to claim 8 wherein a first power of the first turbo charger is different from a second power of the second turbo charger.
McNulty, Michael J.; Ciesla, Christopher R., System and method for achieving engine back-pressure set-point by selectively bypassing a stage of a two-stage turbocharger.
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