基于方框-贝肯响应面方法的炉灶燃烧特性分析

IF 0.7 4区 工程技术 Q4 ENGINEERING, CHEMICAL
Rong Chen,  Rumeng Dong,  Yuwei Hu,  Zhenrong Liu,  Xueping Zhang
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引用次数: 0

摘要

摘要 本文研究了燃料添加次数、锅体大小和一次风口大小对灶具热效率和污染物排放的影响,在此基础上设计了响应面试验,并进行了参数优化。结果表明:影响热效率的主要因素和次要因素的顺序如下:影响二氧化硫排放的主要因素和次要因素的顺序为:B-锅体尺寸>;C-一次空气比>;A-燃料添加量;影响二氧化硫排放的主要因素和次要因素的顺序为:B-锅体尺寸>;C-一次空气比>;A-燃料添加量:B-锅筒尺寸>;A-燃料添加量>;C-一次风比。通过热效率最高、SO2 排放系数最低的组合:当燃料添加次数为 4 次、铁锅尺寸为 18 cm、一次风比例为 63.5%时,热效率为 31.13%,SO2 释放量为 6.79 mg。该研究为生物质炉灶实现减少燃料浪费、降低污染物排放的目的提供了参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Combustion Characterization of Cooking Stove Based on Box–Behnken Response Surface Methodology

Combustion Characterization of Cooking Stove Based on Box–Behnken Response Surface Methodology

Combustion Characterization of Cooking Stove Based on Box–Behnken Response Surface Methodology

In this paper, the effects of the number of fuel additions, pot size and the size of the primary air outlets on the thermal performance and pollutant emission of cooking stoves were investigated, based on which the response surface test was designed and parameter optimization was carried out. The results showed that: the order of the main and secondary factors affecting the thermal efficiency was as follows: B-pot size > C‑primary air ratio > A-fuel additions; the order of the main and secondary factors affecting the SO2 emission was as follows: B-pot size > A-fuel additions > C-primary air ratio. Through the combination of the highest thermal efficiency and the lowest SO2 emission factors: when the number of fuel additions is 4 times, the size of the iron pot is 18 cm, and the proportion of the primary air is 63.5%, the thermal efficiency is 31.13%, and the amount of SO2 released is 6.79 mg. This study provides a reference for the biomass cooking stoves to achieve the purpose of reducing the waste of fuel and reducing the emission of pollutants.

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来源期刊
CiteScore
1.20
自引率
25.00%
发文量
70
审稿时长
24 months
期刊介绍: Theoretical Foundations of Chemical Engineering is a comprehensive journal covering all aspects of theoretical and applied research in chemical engineering, including transport phenomena; surface phenomena; processes of mixture separation; theory and methods of chemical reactor design; combined processes and multifunctional reactors; hydromechanic, thermal, diffusion, and chemical processes and apparatus, membrane processes and reactors; biotechnology; dispersed systems; nanotechnologies; process intensification; information modeling and analysis; energy- and resource-saving processes; environmentally clean processes and technologies.
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