Vanaja, R.; Jeyabarathi, P.; Rajendran, L.; Lyons, M.E.G. Theory for Electrochemical Heat Sources and Exothermic Explosions: The Akbari–Ganji Method. Electrochem2023, 4, 424-434.
Vanaja, R.; Jeyabarathi, P.; Rajendran, L.; Lyons, M.E.G. Theory for Electrochemical Heat Sources and Exothermic Explosions: The Akbari–Ganji Method. Electrochem 2023, 4, 424-434.
Vanaja, R.; Jeyabarathi, P.; Rajendran, L.; Lyons, M.E.G. Theory for Electrochemical Heat Sources and Exothermic Explosions: The Akbari–Ganji Method. Electrochem2023, 4, 424-434.
Vanaja, R.; Jeyabarathi, P.; Rajendran, L.; Lyons, M.E.G. Theory for Electrochemical Heat Sources and Exothermic Explosions: The Akbari–Ganji Method. Electrochem 2023, 4, 424-434.
Abstract
This paper discusses the mathematical modelling of exothermic explosions in a slab. This model is based on a nonlinear equation containing a nonlinear term related to Arrhenius, bimolecular, and sensitised laws of reaction kinetics. The absolute temperature can be obtained by solving the nonlinear equation using Akbari-Ganji’s method. The influence of the parameters Frank-Kamenetskii, activation energy and numerical exponent on temperature is discussed. The analytical results are compared with previous available analytical and numerical results ( Matlab). A satisfactory agreement is noted.
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.