Method for purging condensate from a charge air cooler
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02B-033/44
F02B-033/00
F02M-025/07
F02B-029/04
F02M-035/08
F02D-013/02
F02D-041/10
F02P-005/04
F02D-037/02
F02D-041/00
F02B-075/12
출원번호
US-0656511
(2012-10-19)
등록번호
US-9145823
(2015-09-29)
발명자
/ 주소
Glugla, Chris Paul
Banker, Adam Nathan
Qu, Qiuping
출원인 / 주소
Ford Global Technologies, LLC
대리인 / 주소
Voutyras, Julia
인용정보
피인용 횟수 :
5인용 특허 :
14
초록▼
Methods and systems are provided for performing a pro-active condensate clean-out of a charge air cooler. In response to condensate in a charge air cooler and engine operating conditions, airflow is increased to the intake manifold, purging condensate from the cooler. Engine actuators may also be ad
Methods and systems are provided for performing a pro-active condensate clean-out of a charge air cooler. In response to condensate in a charge air cooler and engine operating conditions, airflow is increased to the intake manifold, purging condensate from the cooler. Engine actuators may also be adjusted to maintain torque demand during the clean-out procedure.
대표청구항▼
1. A method of controlling airflow delivered to an engine, comprising an electronic controller of the engine including non-transitory instructions to execute: determining a condensate level in a charge air cooler; andcontrolling an intake throttle to increase airflow to the engine from an initial le
1. A method of controlling airflow delivered to an engine, comprising an electronic controller of the engine including non-transitory instructions to execute: determining a condensate level in a charge air cooler; andcontrolling an intake throttle to increase airflow to the engine from an initial level responsive to the condensate level being determined in the charge air cooler being greater than a threshold level and the initial airflow level being below a blow-off airflow level and while a signal received at the electronic controller indicating a pedal position remains unchanged. 2. The method of claim 1, wherein the signal received at the electronic controller indicating pedal position remains unchanged indicates that pedal position is not increasing to request the increase in airflow and further comprising: maintaining torque as requested based on the indicated pedal position during the increasing airflow by controlling via the electronic controller at least one actuator coupled to the engine to adjust at least one of spark retard timing, variable camshaft timing, alternator load, and air-to-fuel ratio. 3. The method of claim 1, wherein the condensate level is determined via the electronic controller based on signals received at the electronic controller of at least one of mass air flow, ambient temperature, charge air cooler outlet temperature, charge air cooler pressure, ambient pressure, and an EGR amount. 4. The method of claim 3 wherein the condensate level is further determined via the electronic controller based on input received at the electronic controller from an ambient humidity sensor coupled to the engine. 5. The method of claim 1, wherein the condensate level is determined via the electronic controller based on signals received at the electronic controller of a charge air cooler outlet temperature and at least one of a charge air cooler pressure to ambient pressure ratio and engine load. 6. The method of claim 1, wherein an amount of increase in airflow is determined by the electronic controller based on a difference between the initial airflow level and the blow-off airflow level,wherein the blow-off airflow level is determined by the electronic controller based on the condensate level being determined, andwherein controlling the intake throttle to increase airflow to the engine includes increasing an amount of opening of the intake throttle to increase airflow to the engine to above the blow-off airflow level. 7. The method of claim 1, wherein the threshold level of condensate, which is determined by the electronic controller, is adjusted based on engine operating conditions including at least one of burn rate of the engine, a temperature of the engine, and a spark timing of the engine. 8. The method of claim 7, wherein the electronic controller increases the threshold level of condensate as the temperature of the engine increases. 9. The method of claim 7, wherein the electronic controller increases threshold level of condensate as spark retard decreases. 10. The method of claim 1, further comprising, during the increase in airflow, reducing an amount of EGR. 11. The method of claim 1, wherein the initial airflow level being below the blow-off airflow level includes the initial airflow level being within a threshold airflow range, of the blow-off airflow level. 12. An engine method of controlling airflow delivered to an engine, comprising an electronic controller of the engine including non-transitory instructions to execute: determining a condensate level in a charge air cooler; andincreasing airflow to the engine to a level greater than requested by an operator of a vehicle in which the engine is installed, without increasing engine torque by adjusting at least one actuator coupled to the engine comprising at least one of an intake throttle valve, an alternator, a spark plug, a camshaft, and a fuel injector to maintain torque, in response to the condensate level being determined in the charge air cooler. 13. The method of claim 12, wherein the increasing airflow to the engine is responsive to the condensate level being determined in the charge air cooler being greater than a threshold condensate level and an initial airflow to the engine being within a threshold of a blow-off airflow level, where the initial airflow is a level of the airflow to the engine before increasing the airflow and where the engine torque is not increased greater than a requested torque during the increasing airflow to the engine. 14. The method of claim 12, wherein the increasing engine airflow includes controlling the intake throttle valve disposed in an intake passage upstream of cylinders of the engine to increase an amount of opening of the intake throttle valve, wherein the charge air cooler is disposed in the intake passage, and wherein the electronic controller receives a pedal position signal from a pedal position sensor coupled to an accelerator pedal coupled to the vehicle, where the pedal position signal indicates a requested level of airflow to the engine to produce a torque demand. 15. The method of claim 12, wherein the condensate level is determined by the electronic controller based on a plurality of signals received at the electronic controller from sensors coupled to the engine, where the plurality of signals include each of mass air flow, ambient temperature, charge air cooler outlet temperature, charge air cooler pressure, ambient pressure, and an EGR amount and wherein the adjusting the at least one actuator coupled to the engine to maintain torque is performed by the electronic controller and includes: increasing a load applied to the engine via the alternator,increasing the spark retard timing of the spark plug,increasing the retard variable camshaft timing of the camshaft, andenleaning an exhaust air-to-fuel ratio from stoichiometry via the fuel injector. 16. The method of claim 15, wherein the condensate level being determined by the electronic controller is further based on input received at the electronic controller from a humidity sensor coupled to the engine. 17. The method of claim 12, wherein the condensate level being determined by the electronic controller is based on signals received at the electronic controller from sensors coupled to the engine, where the signals include a charge air cooler outlet temperature and at least one of a charge air cooler pressure to ambient pressure ratio and engine load. 18. An engine system, comprising: an engine including an intake manifold;a compressor coupled to the intake manifold upstream of an intake throttle;a charge air cooler coupled downstream of the compressor;an accelerator pedal for receiving an operator torque request; andan electronic controller including a non-transitory computer readable medium encoded with instructions of: maintaining an accelerator pedal position of the accelerator pedal,determining an amount of condensate stored in the charge air cooler; andincreasing an opening of the intake throttle to increase air flow to the intake manifold in response to the amount of condensate having determined and stored in the charge air cooler being higher than a threshold while maintaining an engine torque being depended upon the maintaining an accelerator pedal position of the accelerator pedal. 19. The system of claim 18, wherein the maintaining the engine torque includes at least one of retarding spark ignition timing, adjusting a variable camshaft timing, increasing an alternator load applied on the engine, and enleaning an exhaust air-to-fuel ratio from stoichiometry. 20. The system of claim 19, wherein the increasing air flow includes increasing the air flow from an initial setting to a blow-off airflow setting, the blow-off airflow setting based on the amount of condensate stored at the charge air cooler having been determined.
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이 특허에 인용된 특허 (14)
Tai, Chun; Reppert, Todd Colin, Charge air cooler arrangement with cooler bypass and method.
Buia, Christian John-Augustin; Bohne, Darren Lee; Kuhlenbeck, Ryan A.; Czarnowczan, Paul S.; Rutherford, Thomas Porter, Controlled condensate collection and evacuation for charge air cooler.
Shiraishi, Takuya; Yamaoka, Shirou; Tokuyasu, Noboru; Ohsuga, Minoru, Method of controlling direct gasoline injection type internal combustion engine with turbocharger and direct gasoline injection type internal combustion engine with turbocharger.
Hakeem, Mohannad; Surnilla, Gopichandra; Smith, Stephen B., Methods and system for adjusting engine operation based on evaporated and condensed portions of water injected at an engine.
Hakeem, Mohannad; Surnilla, Gopichandra; House, Christopher; Shelby, Michael Howard; Ulrey, Joseph Norman, Methods and system for injecting water at different groups of cylinders of an engine.
Hakeem, Mohannad; Surnilla, Gopichandra; Smith, Stephen B.; Ulrey, Joseph Norman, Methods and system for selecting a location for water injection in an engine.
Russ, Stephen George; Fabien, Philip Andrew; Mandjack, Michael P.; Cockerill, Charles Allen, Methods and systems for increasing airflow through a charge air cooler to decrease charge air cooler condensate.
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