Title of article :
COMPUTATIONAL SIMULATION ON EMISSIONS OF HYDROGEN FUELED COMPRESSION IGNITION ENGINE WITH VARIABLE COMBUSTION TEMPERATURE
Author/Authors :
Adnan, R. Universiti Sains Malaysia - Pusat Pengajian Sains Kimia, Malaysia , Masjuki, H.H. university of malaya - Department of Mechanical Engineering, Malaysia , Mahlia, T.M.I. university of malaya - Department of Mechanical Engineering, Malaysia
Abstract :
In this paper, computational simulation on the effect of combustion temperature on emissions characteristics of hydrogen-fuelled compression ignition engine was performed. Combustion process was modeled based on Equilibrium Constant Method (ECM) and programmed using MATLAB program in order to calculate mole fractions of 18 combustion products when hydrogen-diesel fuels blends is burnt at variable combustion temperatures. It is observed that throughout all equivalence ratios, higher temperature increases H2, CO, HCN, atoms C, O and H, NO, OH, NO2 and O3 emissions and decreases CO2, H2O, NH3 and CH4, N2, O2 and HNO3 emissions. The highest H2O emission occurs during stoichiometric combustion and decrease in combustion temperature causes insignificant changes in atom N emission
Keywords :
Equilibrium Constants Method , Newton , Raphson Iteration , MATLAB , Combustion Model , Emission Characteristics
Journal title :
International Journal of Mechanical and Materials Engineering
Journal title :
International Journal of Mechanical and Materials Engineering
