%0 Journal Article %@ 16609336 %A Fazal, I. %A Rama Rao, K.S. %A Karsiti, M.N. %C Bangkok %D 2012 %F scholars:3228 %J Applied Mechanics and Materials %K Air-gaps; Combustion engines; Complex control; Flux distributions; Flux linkages; Free piston; Impact force; Linear generators; Modeling and simulation; Permanent-magnet linear generators; Prime movers, Aerospace engineering; Computer simulation; Demagnetization; Electromotive force; Finite element method; Permanent magnets, Engine pistons %P 2458-2463 %R 10.4028/www.scientific.net/AMM.110-116.2458 %T Modeling and simulation of a moving-coil linear generator %U https://khub.utp.edu.my/scholars/3228/ %V 110-11 %X This paper presents the analysis on flux and electromotive force (EMF) developed by moving coil and moving iron linear generators using finite element method (FEM). A 6 pole moving coil and 6/4 moving iron linear generator are used to analyze and compare the flux distribution in the air gap. These generators will be used for free piston linear engine. A moving permanent-magnet linear generator has drawbacks of thermal and impact force demagnetization, in addition to requiring complex control strategies. To overcome these limitations, one of the solutions is to place magnets on the stator instead on the translator. Based on the analysis it is proposed to replace the moving permanent-magnet by a moving-coil for a linear generator whose prime mover is a free-piston linear combustion engine. © (2012) Trans Tech Publications, Switzerland. %Z cited By 0; Conference of 2nd International Conference on Mechanical and Aerospace Engineering, ICMAE 2011 ; Conference Date: 29 July 2011 Through 31 July 2011; Conference Code:87387