Design Analysis and Production of Biogas Using Local Feedstock “Elephant Grass”

Journal of Basic and Applied Research International Pub Date : 2024-06-10 DOI:10.56557/jobari/2024/v30i38728

B. Okonkwo, M. C. Osuagwu, U. Opara, C.S. Ike, K. C. Aladum

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Abstract

The study was aimed at constructing a biodigester and determining the efficiency of using a mixture of cow dung and elephant grass as feedstock for biogas production. The volume of the biodigester was 126 litres (0.126m3) and it was constructed using mild steel with a thickness of 5mm and a maximum allowable stress of 1.74 N/mm2 to withstand high pressures that could be generated within the digester. 6 kg of elephant grass was mixed with 6 kg of cow dung and 12 litres of water and poured in the biodigester and left for a period of 21 days with a temperature range of 35°C - 44°C. Graphs of temperature (°C) against retention period (days) and daily biogas produced (litres) against retention period (days) were obtained. The daily biogas yield was measured by calculating the volume increase of the storage device which is a car tyre tube in this case. Elephant grass serves as an effective substrate for biogas production. To enhance its efficiency in the digester, it is recommended to mechanically pre-treat the grass by breaking it into smaller particles.

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利用当地原料 "象草 "设计分析和生产沼气

这项研究旨在建造一个生物发酵罐，并确定使用牛粪和象草混合物作为原料生产沼气的效率。生物发酵罐的容积为 126 升（0.126 立方米），使用厚度为 5 毫米的低碳钢建造，最大容许应力为 1.74 牛/平方毫米，以承受发酵罐内可能产生的高压。将 6 千克象草与 6 千克牛粪和 12 升水混合后倒入生物发酵罐，在 35°C - 44°C 的温度范围内放置 21 天。得出了温度（摄氏度）与停留时间（天数）的对比图，以及日沼气产量（升）与停留时间（天数）的对比图。每天的沼气产量是通过计算储存装置（本例中为汽车轮胎筒）的体积增长来测量的。象草是生产沼气的有效基质。为了提高象草在沼气池中的效率，建议对象草进行机械预处理，将其破碎成更小的颗粒。

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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Journal of Basic and Applied Research International

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