OPTIMIZATION OF BIOGAS PRODUCTION FROM TOFU WASTEWATER

Journal of Environmental Engineering and Sustainable Technology Pub Date : 2023-01-26 DOI:10.21776/ub.jeest.2022.009.01.4

Ani Purwanti

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Abstract

The Seyegan tofu industry has increased the output of tofu wastewater, which has not yet been put to good use. Biogas can be created by mixing wastewater from the tofu business with waste from the cow feces industry. In this study, we measure the time of fermentation, the composition variation, and the rate of increase in gas pressure from the biogas generation process. Three versions with three repetitions each were used in this investigation. Three different variations were tested: one with a ratio of 20% cow excrement and 80% wastewater tofu industry, one with a ratio of 35% cow feces and 65% wastewater tofu industry, and one with a ratio of 50% cow feces and 50% wastewater tofu industry. Using a biogas reactor consisting of 120 L plastic drums, the experiment was conducted. Gas pressure (mm) was monitored with a water column and fermentation duration using a digital timer (hours). To ascertain the viscosity variance of each variation composition, a level test was conducted. By using the gravimetric approach, water. According to the study's findings, a 2.5 mm water column containing a mixture of 50% cow feces and 50% wastewater from the tofu business had the maximum gas pressure. The ideal ratio of mixed materials within 7 days has a significant impact on optimal biogas production.

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豆腐废水产沼气的优化研究

Seyegan豆腐工业增加了豆腐废水的产量，但尚未得到很好的利用。将豆腐业的废水与牛粪业的废水混合可以产生沼气。在本研究中，我们测量了发酵时间、成分变化以及沼气生成过程中气体压力的增长速度。本研究使用了三个版本，每个版本重复三次。测试了三种不同的变化:20%牛粪和80%废水豆腐工业的比例，35%牛粪和65%废水豆腐工业的比例，50%牛粪和50%废水豆腐工业的比例。利用120 L塑料桶组成的沼气反应器进行了实验。用水柱监测气体压力(mm)，用数字计时器监测发酵时间(小时)。为了确定各变异成分的粘度方差，进行了水平检验。通过使用重力法，水。根据研究结果，含有50%牛粪和50%豆腐企业废水的混合物的2.5毫米水柱具有最大的气体压力。7天内理想的混合物料配比对最佳沼气产量有显著影响。

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 Environmental Engineering and Sustainable Technology

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