Heat Transfer Investigation of Intake Port Engine Based on Steady-State and Transient Simulation
Semin , Abdul Rahim Ismail, Rosli Abu Bakar and Ismail Ali
DOI : 10.3844/ajassp.2008.1572.1579
American Journal of Applied Sciences
Volume 5, Issue 11
This research is presents the gas flow heat transfer investigation in the intake port of four stroke direct injection compression ignition engine using GT-Suite software for steady-state and transient simulation. To investigate and simulate the intake port gas flow heat transfer profile of compression ignition engine is using GT-Power engine model were developed in this research. GT-Power is sub-system menu from GT-Suite. The engine model is developed from the real compression ignition engine data and input to software library. In this research, the simulation of engine model is running in variations engine speeds. The simulation output data is collected from the GT-Post results plots and casesRLT in post processing. The simulation results of the intake port engine model are shown the characters in intake port heat transfer profile of engine in variations engine speeds. The detail performance intake port gas flow heat transfer is shown that in 3500 rpm engine speed is the best
© 2008 Semin , Abdul Rahim Ismail, Rosli Abu Bakar and Ismail Ali. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.