Systems and methods for identifying a stuck open exhaust gas recirculation valve

The invention claimed is: 1. A method, comprising: executing computer readable instructions on a controller to perform the steps of: propelling a vehicle by an engine having a throttle coupled to an intake manifold; recirculating a portion of engine exhaust to the intake manifold through an exhaust gas recirculation (EGR) valve; closing the throttle and commanding closing of the EGR valve when propelling the vehicle with an electric motor while the engine spins down to rest; checking operation of the EGR valve by measuring an intake pressure with a manifold absolute pressure sensor and an exhaust pressure with a pressure sensor coupled to an EGR passage upstream of the EGR valve; and in response to a first intake pressure and exhaust pressure relation, indicating EGR valve degradation as stuck open based on both the intake pressure and the exhaust pressure after the commanding; wherein the first intake pressure and exhaust pressure relation includes a ratio of the intake pressure to the exhaust pressure not reaching or decreasing below a threshold ratio. 2. The method of claim 1 , wherein the checking operation of the EGR valve commences after the vehicle transitions from being propelled by the engine to being propelled by the electric motor and concludes when the engine is at rest. 3. The method of claim 2 , further comprising shutting off fuel supplied to the engine during the checking operation of the EGR valve. 4. The method of claim 1 , wherein the EGR valve is not coupled to a position sensor. 5. The method of claim 1 , wherein the EGR valve is positioned by a stepper motor. 6. The method of claim 1 , wherein the checking operation of the EGR valve includes one or more of determining a difference between the intake manifold pressure and the exhaust pressure and determining a ratio of the intake manifold pressure to the exhaust pressure. 7. The method of claim 6 , further comprising: in response to one or more of the difference between the intake manifold pressure and the exhaust pressure not reaching or exceeding a threshold difference and the ratio of the intake manifold pressure to the exhaust pressure not reaching or going below a threshold ratio, indicating degradation of the EGR valve and adjusting operating parameters of the engine. 8. The method of claim 7 , wherein the adjusting operating parameters of the engine includes advancing ignition timing of the engine relative to when no exhaust gas is recirculated to the intake manifold. 9. The method of claim 7 , wherein the adjusting operating parameters of the engine includes decreasing an amount of fuel supplied to the engine relative to when no exhaust gas is recirculated to the intake manifold. 10. The method of claim 1 , wherein the intake manifold pressure is based on one or more of the following: an output from a pressure sensor coupled to the intake manifold, or an output from an algorithm based on engine speed and load. 11. A method, comprising: executing computer readable instructions on a controller to perform the steps of: propelling a hybrid vehicle with an engine having a throttle coupled to an intake manifold, and recirculating a portion of engine exhaust to the intake manifold through an exhaust gas recirculation (EGR) valve; transitioning from propelling the hybrid vehicle with the engine to propelling the hybrid vehicle with an electric motor, in part by closing the throttle, commanding closing of the EGR valve, and shutting off engine fuel delivery; determining whether the EGR valve does not fully close based on either a difference or a ratio of intake manifold pressure to exhaust pressure, wherein determining whether the EGR valve does not fully close based on either the difference or the ratio of the intake manifold pressure to the exhaust pressure includes indicating that the EGR valve does not fully close in response to either the difference not reaching or exceeding a threshold difference or the ratio not reaching or decreasing below a threshold ratio, and indicating that the EGR valve fully closes in response to either the difference being greater than or equal to the threshold difference or the ratio being less than or equal to the threshold ratio, wherein one of the threshold difference or the threshold ratio is based on barometric pressure; and adjusting operating parameters of the engine in response to the EGR valve not fully closing. 12. The method of claim 11 , wherein the adjusting engine operating parameters includes advancing ignition timing of the engine and decreasing fuel delivered to the engine relative to when the EGR valve is fully closed after a subsequent engine restart. 13. The method of claim 11 , wherein the adjusting engine operating parameters includes cranking the engine to a higher speed than when the EGR valve is fully closed during a subsequent engine restart. 14. The method of claim 11 , further comprising disabling the recirculation of engine exhaust in response to the determining the EGR valve does not fully close. 15. A system for a vehicle, comprising: an engine, including an intake manifold and an exhaust passage; a fuel tank; an electric motor; a traction battery; an exhaust gas recirculation (EGR) system, including an EGR passage coupled between the intake manifold and the exhaust passage with an EGR valve coupled therein; a throttle positioned in an intake of the engine, upstream of where the EGR system couples to the intake manifold; a manifold absolute pressure sensor coupled to the intake manifold; a pressure sensor coupled to the EGR passage upstream of the EGR valve; and a controller with computer readable instructions for: propelling the vehicle with the engine while operating in an engine mode or an assist mode; providing exhaust gas to the intake manifold responsive to engine demand while operating in the engine mode or the assist mode; shutting off fuel delivery from the fuel tank to the engine, closing the throttle and the EGR valve, and spinning the engine down to rest while propelling the vehicle with the electric motor in response to a request for transitioning to an electric mode; measuring an intake pressure with the manifold absolute pressure sensor and an exhaust pressure with the pressure sensor coupled to the EGR passage following the closing the throttle and the EGR valve; in response to a first intake pressure and exhaust pressure relation, indicating degradation of the EGR valve; and in response to a second intake pressure and exhaust pressure relation, not indicating degradation of the EGR valve; wherein the request for transitioning to the electric mode is responsive to one or more of a torque demand being below a torque threshold, a fuel level in the fuel tank being less than a fuel level threshold, and a state of charge of the traction battery being higher than a threshold state of charge, and wherein indicating degradation of the EGR system further includes indicating degradation of the EGR valve and disabling the EGR system. 16. The system of claim 15 , wherein the first intake pressure and exhaust pressure relation includes a ratio of the intake pressure to the exhaust pressure not reaching or decreasing below a threshold ratio, and the second intake pressure and exhaust pressure relation includes the ratio of the intake pressure to the exhaust pressure reaching or decreasing below the threshold ratio. 17. The system of claim 15 , wherein the first intake pressure and exhaust pressure relation includes a difference between the intake pressure and the exhaust pressure not reaching or exceeding a th