Engine system with intake air-supply turbine and motor-driven compressor
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/44
F02B-037/04
F02B-037/16
출원번호
US-0137980
(2016-04-25)
등록번호
US-10006346
(2018-06-26)
우선권정보
DE-10 2015 207 791 (2015-04-28)
발명자
/ 주소
Kemmerling, Joerg
Kindl, Helmut Matthias
Smiljanovski, Vanco
Kraemer, Frank
Sommerhoff, Franz Arnd
Kuske, Andreas
Brinkmann, Franz J.
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Voutyras, Julia
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A method for operation of an engine. The method includes during a first operating condition, permitting intake airflow through an intake air-supply turbine positioned upstream of a cylinder to drive a generator, the generator coupled to an energy storage device, and inhibiting intake airflow through
A method for operation of an engine. The method includes during a first operating condition, permitting intake airflow through an intake air-supply turbine positioned upstream of a cylinder to drive a generator, the generator coupled to an energy storage device, and inhibiting intake airflow through a motor-driven compressor arranged in parallel flow arrangement with the intake air-supply turbine, the motor driven compressor coupled to a motor coupled to the energy storage device. The method further includes during a second operating condition, permitting intake airflow through the motor-driven compressor while the motor-driven compressor receives rotation input from the motor, and inhibiting intake airflow through the intake air-supply turbine.
대표청구항▼
1. An engine system comprising: a compressor in an engine intake;an intake air-supply turbine arranged in the engine intake downstream of the compressor, an output shaft of the intake air-supply turbine coupled to a generator electrically coupled to an energy storage device; anda motor-driven compre
1. An engine system comprising: a compressor in an engine intake;an intake air-supply turbine arranged in the engine intake downstream of the compressor, an output shaft of the intake air-supply turbine coupled to a generator electrically coupled to an energy storage device; anda motor-driven compressor in the engine intake in a parallel flow arrangement with the intake air-supply turbine and having a shaft coupled to a motor electrically coupled to the energy storage device. 2. The engine system of claim 1, further comprising an air-supply turbine valve positioned in an intake air-supply turbine conduit in the engine intake and a motor-driven compressor valve positioned in a motor-driven compressor conduit in the engine intake. 3. The engine system of claim 2, further comprising a control subsystem configured to, during a first operating condition, open the intake air-supply turbine valve and close the motor-driven compressor valve and, during a second operating condition, close the intake air-supply turbine valve, open the motor-driven compressor valve, and command the motor to drive the motor-driven compressor. 4. The engine system of claim 3, where the control subsystem is configured to, during the first operating condition, command the generator to transfer energy to the energy storage device and during the second operating condition, command the energy storage device to transfer energy to the motor. 5. The engine system of claim 3, further comprising a bypass conduit positioned in a parallel flow arrangement with the motor-driven compressor conduit and the intake air-supply turbine conduit and a bypass valve positioned in the bypass conduit, the control subsystem configured to adjust the bypass valve during the first and second operating conditions. 6. A motor vehicle comprising: an internal combustion engine;an air-supply tract providing a flow of intake air to the internal combustion engine;an exhaust gas tract receiving exhaust gas from the internal combustion engine;a compressor which is arranged in the air-supply tract;an intake air-supply turbine which is arranged in an intake air-supply turbine conduit of the air-supply tract downstream of the compressor and is configured to transmit torque to a generator coupled to an energy storage device; anda motor-driven compressor positioned in a motor-driven compressor conduit in a parallel flow arrangement with an intake conduit in the air-supply tract, the motor-driven compressor coupled to a motor configured to the energy storage device. 7. The motor vehicle of claim 6, further comprising an intake air-supply turbine valve positioned in the intake air-supply turbine conduit, a motor-driven compressor valve positioned in the motor-driven compressor conduit, and a control system configured to adjust the flow of the intake air through the intake air-supply turbine valve and the motor-driven compressor valve based on engine operating conditions. 8. The motor vehicle of claim 7, where the control system is configured to, during a first operating condition, open the intake air-supply turbine valve and close the motor-driven compressor valve. 9. The motor vehicle of claim 8, where the control system is configured to, during a second operating condition, open the motor-driven compressor valve and command the motor to drive the motor-driven compressor and close the intake air-supply turbine valve. 10. The motor vehicle of claim 8, where the first operating condition includes a condition where the compressor is generating excess boost. 11. The motor vehicle of claim 6, where the intake air-supply turbine has adjustable guiding vanes. 12. The motor vehicle of claim 6, where the generator is configured to receive a variable torque input from the intake air-supply turbine. 13. The motor vehicle of claim 6, where the air-supply tract comprises a bypass conduit positioned in a parallel flow arrangement with the motor-driven compressor conduit and the intake air-supply turbine conduit. 14. The motor vehicle of claim 13, further comprising a bypass valve positioned in the bypass conduit. 15. The motor vehicle of claim 6, where the compressor is connected to an exhaust gas turbine which is arranged in the exhaust gas tract, the exhaust gas turbine configured to transmit torque to the compressor. 16. A method for operation of an engine system comprising: determining operating condition of the engine via a controller based on indications from one or more of an engine speed sensor, a pedal position sensor, and a manifold air pressure sensor;during a first operating condition determined via the controller, permitting intake airflow through an intake air-supply turbine positioned upstream of a cylinder via the controller commanding an air-supply turbine valve actuator to open an air-supply turbine valve positioned in an intake air-supply turbine conduit in an engine intake to drive a generator rotationally coupled to the intake air-supply turbine, the generator coupled to an energy storage device; andinhibiting intake airflow through a motor-driven compressor arranged in a parallel flow arrangement with the intake air-supply turbine via the controller commanding a motor-driven compressor valve actuator to close a motor-driven compressor valve positioned in a motor-driven compressor conduit in the engine intake, the motor-driven compressor coupled to a motor coupled to the energy storage device; andduring a second operating condition determined via the controller, permitting intake airflow through the motor-driven compressor via the controller commanding the motor-driven compressor valve actuator to open the motor-driven compressor valve while the motor-driven compressor receives rotation input from the motor; andinhibiting intake airflow through the intake air-supply turbine via the controller commanding the air-supply turbine valve actuator to close the air-supply turbine valve. 17. The method of claim 16, further comprising during the first or second operating conditions, adjusting a bypass valve via the controller, the bypass valve in a bypass conduit positioned in a parallel flow arrangement with the motor-driven compressor and the intake air-supply turbine to alter an amount of airflow passing through the bypass conduit. 18. The method of claim 16, where the turbine is a variable geometry turbine configured to adjust a flowrate of intake airflow traveling through the intake air-supply turbine and where, during the first operating condition, the method further comprises adjusting a geometry of the intake air-supply turbine based on engine output requests, the engine output requests determined via the controller based on indications from the pedal position sensor. 19. The method of claim 16, further comprising, during the first operating condition, transferring energy from the generator to the energy storage device and, during the second operating condition, transferring energy from the energy storage device to the motor. 20. The method of claim 16, where the first operating condition is a condition where a compressor positioned upstream of the intake air-supply turbine is generating excess boost.
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이 특허에 인용된 특허 (6)
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