A Review on Performance of Biogas Stove From Different Design of Burner

SRPN: Innovation (Topic) Pub Date : 2019-02-12 DOI:10.2139/ssrn.3442426

Guruwendra Singh, S. Verma, P. Baredar

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Abstract

The requirement of energy is escalating at an alarming rate, which has led to the depletion of fossil fuel reserves and takes millions of years to be formed by natural processes. These are renewable but due to lack of development in technologies, the produced biogas cannot be effectively used and hence is of very less importance. Advanced biogas generation method has increased to the increase of a quantity of biogas rural devices for cooking, lighting, heating and power production. To meet the power need for food preparing purpose at community level in addition to domestic level the most capable appliance is the biogas stove among them. Several studies are happening for efficient generation of biogas in order to it could be used as alternate energy, because conventional fossil fuels are costlier than biogas. In this study designed three types of burner namely burner A with 115 holes of 1.5 mm size, burner B with 41 holes of 3 mm size and burner C with 44 holes of 2 mm size. By using this burner in place of regular burner for boiling water reach maximum flame temperature 1261.023 °C for A, 1226.01 °C for B and 1317.929 °C for C and the temperature rise in burner A, B and C are 0.31°C, 0.403 °C and 0.273 °C respectively.

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从不同燃烧器设计看沼气炉的性能

对能源的需求正以惊人的速度增长，这导致了化石燃料储备的枯竭，并且需要数百万年的自然过程才能形成。这些都是可再生的，但由于缺乏技术发展，产生的沼气不能有效利用，因此重要性很低。先进的沼气产生方法使沼气农村烹饪、照明、取暖和发电装置数量增加。除家庭外，满足社区准备食物的电力需求，其中最有能力的是沼气炉。由于传统的化石燃料比沼气贵，一些研究正在进行，以便有效地产生沼气，使其可以作为替代能源使用。本研究设计了三种燃烧器，即燃烧器A有115个1.5 mm尺寸的孔，燃烧器B有41个3 mm尺寸的孔，燃烧器C有44个2 mm尺寸的孔。用该燃烧器代替常规燃烧器，沸水最高火焰温度A为1261.023℃，B为1226.01℃，C为1317.929℃，燃烧器A、B、C的温升分别为0.31℃、0.403℃、0.273℃。

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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SRPN: Innovation (Topic)

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