Author(s)

Mayathevar Renugadevi¹, Saminathan Sevukaperumal², Lakshmanan Rajendran^3*

¹Department of Mathematics, P. M. T. College, Usilampatti, India.
²Department of Mathematics, J. J. College of Arts and Science, Pudukkottai, India.
³Department of Mathematics, Sethu Institute of Technology, Kariapatti, India.

For the first time a mathematical modelling of porous catalyst particles subject to both internal mass concentration gradients as well as temperature gradients, in endothermic or exothermic reactions has been reported. This model contains a non-linear mass balance equation which is related to rate expression. This paper presents an approximate analytical method (Modified Adomian decomposition method) to solve the non-linear differential equations for chemical kinetics with diffusion effects. A simple and closed form of expressions pertaining to substrate concentration and utilization factor is presented for all value of diffusion parameters. These analytical results are compared with numerical results and found to be in good agreement.

Chemical and Biological Systems, Modified Adomian Decomposition Method, Nonlinear Reaction Diffusion, Porous Catalyst Particles, Mass and Diffusion Effect

Renugadevi, M. , Sevukaperumal, S. and Rajendran, L. (2016) The Approximate Analytical Solution of Non-Linear Equation for Simultaneous Internal Mass and Heat Diffusion Effects. Natural Science, 8, 284-294. doi: 10.4236/ns.2016.86033.