一种改进的减少排放和改善传热特性的生物质炉灶的CFD研究

Journal of Clean Energy Technologies Pub Date : 2017-11-01 DOI:10.18178/JOCET.2017.5.6.410

Hassan Ali, Terence Tang Jia Wei

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引用次数: 4

摘要

在本文中，为了减少炉灶用户的室内空气污染(IAP)暴露，提出了一种改进的生物质炉灶。利用ANSYS Fluent仿真软件对所提出的炉灶进行了计算流体动力学(CFD)燃烧研究，分析了其燃烧和传热行为。木材在炉子内的燃烧现象被模拟为热解产生的挥发物的气态燃烧。给出了温度梯度、速度分布和燃烧产物浓度。将CFD预测结果与一种流行的商用改进炉灶(ICS)进行了比较，得出结论:该炉灶的燃烧产物浓度降低，烹饪速度加快，从而提高了能源效率，是一种健康友好型炉灶。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CFD Study of an Improved Biomass Cookstove with Reduced Emission and Improved Heat Transfer Characteristics

In this paper, in an effort towards reducing indoor air pollution (IAP) exposure for cookstove users, an improved biomass cookstove has been proposed. A computational fluid dynamics (CFD) combustion study has been carried out for the proposed cookstove to analyze the combustion and heat transfer behavior using ANSYS Fluent Simulation. The wood combustion phenomenon inside the stove is modelled as gaseous combustion of volatiles generated by pyrolysis. Temperature gradients, velocity profiles and combustion product concentrations are presented. Based on comparison of CFD predicted results with a popular commercial improved cook stove (ICS), it was concluded that the proposed cook stove yields reduced combustion product concentrations as well as faster cooking resulting in better energy efficiency and a health friendly cook stove.

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Journal of Clean Energy Technologies

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