Effect of Engine Oil Heater Using EGR on the Fuel Economy and NOx Emission of a Full Size Sedan during Cold Start 2016-01-0656
In cold start driving cycles, high viscosity of the lubrication oil (engine oil) increases the mechanical friction losses compared with warmed up condition. Thus, an engine oil warm up system can provide the opportunity to reduce the mechanical friction losses during cold start. In this study, an engine oil heater using EGR is used for the fast warm up of the engine oil. This paper presents the effect of the engine oil heater on the fuel economy and emissions over a driving cycle (NEDC). A numerical model is developed to simulate the thermal response of the powertrain using multi-domain 1-D commercial powertrain simulation software (GT-Suite) and it is calibrated using test data from a full size sedan equipped with a 2.0L diesel engine. The model consists of an engine model, coolant circuit model, oil circuit model, engine cooling model, friction model, and ECU model. Also, a couple of the engine oil heater designs are compared using CFD to maximize the heat exchange rate and minimize the pressure drop across the oil heater. Selected engine oil heater design is modeled using Matlab-Simulink to integrate the engine oil heater model with the powertrain model developed using GT-Suite. The integrated model is used to compare the base system with the new system with engine oil heater based on the fuel economy and NOx emission.
Citation: Kim, J., Kim, T., Park, S., Han, J. et al., "Effect of Engine Oil Heater Using EGR on the Fuel Economy and NOx Emission of a Full Size Sedan during Cold Start," SAE Int. J. Engines 9(2):719-728, 2016, https://doi.org/10.4271/2016-01-0656. Download Citation
Jung Hyun Kim, Taewoo Kim, SungJin Park, JungJae Han, Choongsoo Jung, Young rock Chung, Sangsoo Pae
Hongik University, Hyundai-Kia Motors
SAE 2016 World Congress and Exhibition
SAE International Journal of Engines-V125-3EJ, SAE International Journal of Engines-V125-3