System and methods for diagnosing soot accumulation on an exhaust gas recirculation valve

The invention claimed is: 1. A method for an engine, comprising: opening an EGR valve, thereby allowing exhaust gas to flow there through; and indicating soot accumulation on the exhaust gas recirculation (EGR) valve by setting a diagnostic code based on a difference in EGR flow estimated during a first non-boosted engine condition, with an intake oxygen sensor and with a pressure sensor coupled across the EGR valve. 2. The method of claim 1 , wherein the difference in EGR flow is a difference between a first EGR flow estimated based on an output of the intake oxygen sensor during the first condition and a second EGR flow estimated with the pressure sensor across the EGR valve during the first condition, wherein the pressure sensor is a differential pressure over valve (DP) sensor, and further comprising estimating the second EGR flow based on an output of the DP sensor and a flow area of the EGR valve, where the flow area of the EGR valve is estimated based on a known cross-section of the EGR valve and an EGR valve position based on an output of an EGR valve position sensor. 3. The method of claim 2 , further comprising determining a change in EGR valve flow area based on the difference in EGR flow, an expected EGR valve flow area and the first EGR flow estimated with the intake oxygen sensor during the first condition, the expected EGR valve flow area based on the output of the EGR valve position sensor and an EGR valve lift correction, the EGR valve lift correction learned during an EGR valve end stop and thermal compensation learning routine. 4. The method of claim 3 , further comprising determining the EGR valve lift correction based on a change in a temperature difference of a stem and body of the EGR valve between when the valve is open and closed, where the temperature difference of the stem and body of the EGR valve is based on an EGR temperature measured proximate to the EGR valve and EGR flow. 5. The method of claim 3 , further comprising indicating soot accumulation on the EGR valve based on the change in EGR valve flow area increasing above a threshold level. 6. The method of claim 3 , further comprising indicating soot accumulation on the EGR valve based on a rate of change in the change in EGR valve flow area increasing above a threshold rate. 7. The method of claim 3 , further comprising determining a corrected EGR valve flow area based on the determined change in EGR valve flow area and the expected EGR valve flow area. 8. The method of claim 7 , further comprising during a second condition when EGR flow is estimated with the DP sensor, estimating EGR flow based on the output of the DP sensor and the corrected EGR valve flow area. 9. The method of claim 8 , wherein the second condition includes one or more of when the engine is boosted, when fuel canister purge is enabled, and when mass air flow to the engine is greater than a threshold level. 10. The method of claim 1 , wherein the first condition further includes when fuel canister purge is disabled and mass air flow to the engine is less than a threshold level. 11. The method of claim 1 , further comprising adjusting engine operation based on EGR flow estimated with the intake oxygen sensor and not the pressure sensor coupled across the EGR valve when the engine is not boosted, fuel canister purge is disabled, and mass air flow to the engine is below a threshold level. 12. The method of claim 1 , further comprising initiating a cleaning routine responsive to the indication of soot accumulation. 13. A method for an engine, comprising: opening an EGR valve, thereby allowing exhaust gas to flow there through; and during selected conditions: comparing a first exhaust gas recirculation (EGR) flow estimated based on an output of an intake oxygen sensor with a second EGR flow estimated based on a pressure difference across the EGR valve; and indicating soot build-up on the EGR valve based on the comparison by setting a diagnostic code. 14. The method of claim 13 , wherein comparing the first EGR flow with the second EGR flow includes learning a flow area error of the EGR valve based on a difference between the first EGR flow and second EGR flow. 15. The method of claim 14 , wherein indicating soot build-up on the EGR valve includes indicating degradation of the EGR valve due to soot based on the learned flow area error increasing above a threshold. 16. The method of claim 14 , further comprising during subsequent engine operation when EGR flow is estimated based on the pressure difference across the EGR valve, adjusting the EGR flow estimate based on the learned flow area error. 17. The method of claim 13 , wherein the pressure difference across the EGR valve is measured via a differential pressure over valve (DP) sensor coupled across the EGR valve. 18. The method of claim 13 , wherein indicating soot build-up on the EGR valve includes one or more of setting a diagnostic code, initiating an EGR valve cleaning routine, and alerting a vehicle operator that the EGR valve is degraded and needs servicing and wherein the selected conditions include when the engine is not boosted, fuel canister purge is disabled, and mass air flow is less than a threshold level. 19. A system for an engine, comprising: a turbocharger with an intake compressor and an exhaust turbine; a low-pressure exhaust gas recirculation (EGR) passage coupled between an exhaust passage downstream of the exhaust turbine and an intake passage upstream of the intake compressor, the low-pressure EGR passage including an EGR valve and differential pressure (DP) sensor for measuring EGR flow; an intake oxygen sensor disposed in an intake of the engine downstream from the low-pressure EGR passage; and a controller with computer-readable instructions for indicating flow-area degradation of the EGR valve based on a difference between a first EGR flow estimate based on an output of the DP sensor and a second EGR flow estimate based on an output of the intake oxygen sensor during engine operation responsive to fuel canister purge disabled, boost disabled, and mass air flow below a threshold level. 20. The system of claim 19 , wherein the intake oxygen sensor is further positioned in an intake manifold of the engine and wherein the computer-readable instructions further include instructions for adjusting a third EGR flow estimate, the third EGR flow estimate based on the output of the DP sensor during engine operation when one or more of fuel canister purge is enabled, boost is enabled, and mass air flow is greater than the threshold level, based on the difference between the first EGR flow estimate and the second EGR flow estimate.