Asymptotic solution to the isothermal nth order distributed activation energy model using the Rayleigh Distribution

Asymptotic solution to the isothermal nth order distributed activation energy model using the Rayleigh Distribution

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This article focuses on the influence of relevant parameters of biomass pyrolysis on the numerical solution of the isothermal nth-order distributed activation energy model (DAEM) gotrax handlebar using the Rayleigh distribution as the initial distribution function F(E) of the activation energies.In this study, the integral upper limit, the frequency factor, the reaction order and the scale parameters are investigated.This paper also derived the asymptotic approximation for the DAEM.

The influence of these parameters is used to calculate the kinetic parameters of the isothermal nth-order DAEM with the help of thermo-analytical results taylor te400 of TGA/DTG analysis.