Amirkabir University of Technology Amirkabir Journal of Mechanical Engineering 2008-6032 51 4 2019 10 23 Numerical modeling of magnetic field effects on flame shape, temperature and CO2, CO and NO emission of laminar diffusion combustion of methane Numerical modeling of magnetic field effects on flame shape, temperature and CO2, CO and NO emission of laminar diffusion combustion of methane 81 90 2977 10.22060/mej.2018.13056.5518 FA Ali Saeedi University of Birjand 0000-0003-1950-6098 Alireza Jafari Beinabaj Department of mechanical engineering, Faculty of engineering, University of Birjand Javad Khadem Department of mechanical Engineering, Faculty of Engineering, University of Birjand 0000-0001-6051-0924 Journal Article 2017 06 24 The influence of magnetic field on combustion has attracted many researchers. Since the effect of the magnetic field on the gas flow and the combustion process is through volumetric electromagnetic force, the need for a numerical solution and electromagnetic simulation of the flow field is necessary to obtain the distribution of the magnetic field. The present study investigates the numerical variations in the shape and temperature of the diffusion flame of methane in the presence of a non-uniform magnetic field. For this purpose, two groups of electromagnetic equations and fluid mechanics and combustion are solved simultaneously. The results show that magnetic force volumetric influences on paramagnetic (oxygen, air) and diamagnetism (methane and combustion products) effects on flame shape, flame temperature, and mixing of fuel and air. Also, the use of a decreasing magnetic field causes Slim and drawn flame shape and increase flame temperature and the application of an increasing magnetic field causes the shape of flame to be shortened and diffused (Mushroom-shaped) and the flame temperature decreases relative to the non-magnetic field. The influence of magnetic field on combustion has attracted many researchers. Since the effect of the magnetic field on the gas flow and the combustion process is through volumetric electromagnetic force, the need for a numerical solution and electromagnetic simulation of the flow field is necessary to obtain the distribution of the magnetic field. The present study investigates the numerical variations in the shape and temperature of the diffusion flame of methane in the presence of a non-uniform magnetic field. For this purpose, two groups of electromagnetic equations and fluid mechanics and combustion are solved simultaneously. The results show that magnetic force volumetric influences on paramagnetic (oxygen, air) and diamagnetism (methane and combustion products) effects on flame shape, flame temperature, and mixing of fuel and air. Also, the use of a decreasing magnetic field causes Slim and drawn flame shape and increase flame temperature and the application of an increasing magnetic field causes the shape of flame to be shortened and diffused (Mushroom-shaped) and the flame temperature decreases relative to the non-magnetic field. Combustion magnetic field flame Temperature pollutant https://mej.aut.ac.ir/article_2977_2bd2e3373dce441c6c3bfadd1daa953e.pdf