Transient combustion analysis for iron micro-particles in a gaseous media by weighted residual methods (WRMs)

M. Hatami; D.D. Ganji; M. Jafaryar; F. Farkhadnia

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Transient combustion analysis for iron micro-particles in a gaseous media by weighted residual methods (WRMs)

机译：加权残量法（WRM）对气态介质中铁微粒的瞬时燃烧分析

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In this paper, combustion process for iron particles burning in the gaseous oxidizing medium due to radiation is investigated by three weighted residual methods (WRMs) called Galerkin method (GM), least square method (LSM) and collocation method (CM). The effect of thermal radiation from the external surface of burning particle and variations of density of iron particle with temperature are considered. The solutions obtained by WRMs techniques are compared with those of the fourth order Runge–Kutta numerical method. Results show that LSM has the most accurate results among other WRMs. Also, results show that by increasing the heat realized parameter (Ψ), combustion temperature increased and it faster reaches to its constant value.

机译：本文采用Galerkin法（GM），最小二乘法（LSM）和配位法（CM）三种加权残差法（WRM）研究了铁颗粒在气态氧化介质中由于辐射而燃烧的过程。考虑了来自燃烧颗粒外表面的热辐射的影响以及铁颗粒密度随温度的变化。通过WRM技术获得的解与四阶Runge–Kutta数值方法进行了比较。结果表明，在其他WRM中，LSM的结果最为准确。而且，结果表明，通过增加热量实现参数（Ψ），燃烧温度增加，并且更快地达到其恒定值。

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《Case Studies in Thermal Engineering》 |2014年第1期|共8页
作者
M. Hatami; D.D. Ganji; M. Jafaryar; F. Farkhadnia;
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中图分类石油、天然气工业;
关键词
Particle combustionThermal radiationTemperature variationWRMs;

机译：粒子燃烧热辐射温度变化WRM;

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7. Transient combustion analysis for iron micro-particles in a gaseous media by weighted residual methods (WRMs) [O] . M. Hatami, D.D. Ganji, M. Jafaryar, 2014

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Transient combustion analysis for iron micro-particles in a gaseous media by weighted residual methods (WRMs)

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