Methods are provided for controlling a turbocharged engine having an additional throttle located between an intake manifold of the engine and an outlet of a compressor. In one example approach a method comprises, during a cold start condition, diverting a portion of compressed air from downstream a
Methods are provided for controlling a turbocharged engine having an additional throttle located between an intake manifold of the engine and an outlet of a compressor. In one example approach a method comprises, during a cold start condition, diverting a portion of compressed air from downstream a compressor to a heat exchanger, and heating vehicle components with the heat exchanger.
대표청구항▼
1. A method for a vehicle, comprising: during a cold start condition of a turbocharged engine, diverting a portion of compressed air from downstream a compressor to a heat exchanger;heating vehicle components via the heat exchanger; anddirecting a remainder portion of compressed air from downstream
1. A method for a vehicle, comprising: during a cold start condition of a turbocharged engine, diverting a portion of compressed air from downstream a compressor to a heat exchanger;heating vehicle components via the heat exchanger; anddirecting a remainder portion of compressed air from downstream the compressor to a cylinder intake valve in the turbocharged engine; andin response to a surge condition during the cold start condition, opening a throttle in a conduit coupled to an intake of the turbocharged engine between an outlet of the compressor and the cylinder intake valve to a fully open position to divert the portion of compressed air from downstream the compressor to the heat exchanger and opening an anti-surge valve located in a conduit between an inlet of the compressor and the outlet of the compressor. 2. The method of claim 1, wherein the cold start condition includes an engine temperature less than a threshold temperature and only in response to a request for cabin heat by an operator, and diverting the portion of compressed air from downstream the compressor to the heat exchanger comprises opening the throttle located in the conduit coupled between the outlet of the compressor and the cylinder intake valve in the engine by a first amount and the method further comprises, during the cold start condition, in response to an increased boost request, opening the throttle by a second amount less than the first amount and opening a wastegate valve located in a conduit coupled between an outlet of a turbine and a cylinder exhaust valve. 3. The method of claim 1, wherein the cold start condition includes an engine temperature less than a threshold temperature and diverting the portion of compressed air from downstream the compressor to the heat exchanger comprises opening the throttle located in the conduit coupled between the outlet of the compressor and the cylinder intake valve in the engine and the method further comprises, during the cold start condition, in response to a decreased boost request, opening the throttle to a fully open position and opening a wastegate valve located in a conduit coupled between an outlet of a turbine and a cylinder exhaust valve. 4. The method of claim 1, wherein the turbocharged engine includes a turbine located in an exhaust passage, the compressor located in an intake passage, the turbine coupled to the compressor via a shaft. 5. The method of claim 1, wherein the cold start condition includes an engine temperature less than a threshold temperature and the method further comprises closing the throttle positioned in the conduit coupled between the outlet of the compressor and the cylinder intake valve in the engine to discontinue diverting the portion of compressed air from downstream the compressor to the heat exchanger in response to the engine temperature greater than the threshold temperature. 6. The method of claim 5, further comprising, in response to an increased boost request when the engine temperature is greater than the threshold temperature, actuating a wastegate valve located in a conduit coupled between an outlet of a turbine and a cylinder exhaust valve while maintaining the throttle in a closed position. 7. The method of claim 5, further comprising, in response to a decreased boost request when the engine temperature is greater than the threshold temperature, opening a wastegate valve located in a conduit coupled between an outlet of a turbine and a cylinder exhaust valve and opening the throttle. 8. The method of claim 5, further comprising, in response to the surge condition when the engine temperature is greater than the threshold temperature, opening the anti-surge valve located in a conduit between an inlet of the compressor and the outlet of the compressor and opening the throttle. 9. A method for a vehicle, comprising: during a cold start condition of a turbocharged engine, diverting a portion of compressed air from downstream a compressor to a heat exchanger; andheating vehicle components via the heat exchanger, wherein diverting the portion of compressed air from downstream the compressor to the heat exchanger comprises actuating a throttle located in a conduit coupled between an outlet of the compressor and a cylinder intake valve in the engine, wherein a first throttle is positioned in an intake of the engine downstream of the outlet of the compressor and diverting the portion of compressed air from downstream the compressor to the heat exchanger comprises actuating a second throttle located in a conduit coupled between the outlet of the compressor and the first throttle. 10. A system for a vehicle with an engine, comprising: a turbocharger including a compressor;a first throttle located in an intake of the engine between an outlet of the compressor and an intake valve of a cylinder of the engine;a second throttle located in a conduit between the outlet of the compressor and the first throttle;a compressor bypass conduit coupled to the intake of the engine at a position upstream of an inlet of the compressor and at a position downstream of the outlet of the compressor;an anti-surge valve located in the compressor bypass conduit; anda controller configured to: in response to an engine temperature less than a threshold temperature, open the second throttle to divert a portion of compressed air from downstream the compressor to a heat exchanger; andadjust the first throttle based on engine operating conditions;in response to a surge condition when the engine temperature is greater than the threshold temperature, open the anti-surge valve; andin response to surge conditions continuing after the opening of the anti-surge valve, open the second throttle to divert the portion of compressed air from downstream the compressor to the heat exchanger. 11. The system of claim 10, wherein the controller is further configured to, in response to the engine temperature greater than the threshold temperature, close the second throttle to discontinue diverting the portion of compressed air from downstream the compressor to the heat exchanger and adjust the first throttle based on engine operating conditions.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (11)
Pursifull, Ross Dykstra; Surnilla, Gopichandra, Avoidance of coolant overheating in exhaust-to-coolant heat exchangers.
Pappenheimer, Andreas; Sommermann, Andreas, Method for cold-start pre-warming of a pressure-charged internal combustion engine and/or of an exhaust gas aftertreatment device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.