Title :
Optimization design of intake manifold and valve timing of gasoline engine based on AMESim code
Author :
Wenyan, Han ; Sichuan, Xu ; Xiao, Deng ; Yuekang, Zhou ; Xiaomao, Zhang
Author_Institution :
Sch. of Automotive Studies, Tongji Univ., Shanghai, China
Abstract :
In order to acquire lower fuel consumption and higher torque output at low and middle speed, an engine cycle simulation of a small turbocharged gasoline engine is conducted by AMESim code. After validated against test data, the simulation model is used to optimize the full load performance of spark ignition (SI) engine. The effects of both intake manifold length and valve timing on the torque, volumetric efficiency and fuel consumption are investigated in details. To overcome the conflicts between low speed and high speed engine performance, variable valve timing (VVT) strategy is also investigated. The results show that, engine torque and brake specific fuel consumption (BSFC) during low and middle speed period can be improved effectively as valve timing is optimized and matched with intake manifold length reasonably using the gas dynamic effect.
Keywords :
design engineering; intake systems (machines); internal combustion engines; manifolds; mechanical engineering computing; optimisation; valves; AMESim code; SI engines; brake specific fuel consumption; engine cycle simulation; engine torque; gas dynamic effect; intake manifold; optimization design; spark ignition engines; turbocharged gasoline engines; variable valve timing; Engines; Load modeling; Manifolds; Petroleum; Timing; Torque; Valves; AMESim code; Gasoline engine; Intake manifold; Valve timing; optimization design;
Conference_Titel :
Computer Research and Development (ICCRD), 2011 3rd International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-61284-839-6
DOI :
10.1109/ICCRD.2011.5764164
