Optimization of the Factors Affecting Biogas Production Using the Taguchi Design of Experiment Method

Biomass Pub Date : 2024-07-02 DOI:10.3390/biomass4030038
Sidahmed Sidi Habib, Shuichi Torii, K. S., Ajimon Charivuparampil Achuthan Nair
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Abstract

The present study analyzed the effect of temperature, pH, pre-treatment and mixing ratio on the anaerobic digestion process. The parameters during the anaerobic co-digestion of cow manure and food waste were then optimized using the Taguchi experimental design method. ANOVA was carried out to find the significant parameters which influence biogas production. Experimental tests were carried out at laboratory-scale reactors kept at different temperatures (28 °C, 35 °C, and 50 °C). The specific methanogenic performance (SMP) during anaerobic digestion at higher temperatures was characterized with the analysis of acetate, propionate, butyrate, hydrogen, glucose, and formate, and was validated with the literature. The improvement of biogas production with different pre-treatments, i.e., ultrasonic, autoclave, and microwave techniques, was also analyzed. The results showed that the reactor that was maintained at 35 °C showed the highest biogas production, while the reactor that was maintained at a lower temperature (28 °C) produced the lower volume of biogas. As the retention time increases, the amount of biogas production increases. Methanogenic activities of microorganisms were reduced at higher temperature conditions (65 °C). Biogas production increased by 28.1%, 20.23%, and 13.27% when the substrates were treated with ultrasonic, autoclave, and microwave, respectively, compared to the untreated substrate. The optimized condition for the highest biogas production during anaerobic co-digestion of food waste and cow manure is a temperature of 35 °C, a pH of 7 and a mixing ratio (CM:FW = 1.5:0.5). ANOVA showed that temperature is the most important input parameter affecting biogas production, followed by mixing ratio.
利用田口试验设计法优化影响沼气生产的因素
本研究分析了温度、pH 值、预处理和混合比对厌氧消化过程的影响。然后采用田口试验设计法对牛粪和厨余厌氧共消化过程中的参数进行了优化。通过方差分析找出影响沼气产量的重要参数。实验测试在不同温度(28 °C、35 °C、50 °C)下的实验室规模反应器中进行。通过分析乙酸盐、丙酸盐、丁酸盐、氢气、葡萄糖和甲酸盐,对高温厌氧消化过程中的特定产甲烷性能(SMP)进行了表征,并与文献进行了验证。此外,还分析了通过不同的预处理(即超声波、高压釜和微波技术)提高沼气产量的情况。结果表明,反应器温度保持在 35 ℃ 时沼气产量最高,而反应器温度保持在较低温度(28 ℃)时沼气产量较低。随着停留时间的增加,沼气产量也在增加。在较高温度条件下(65 °C),微生物的产甲烷活性降低。与未处理的基质相比,用超声波、高压锅和微波处理基质时,沼气产量分别增加了 28.1%、20.23% 和 13.27%。厨余和牛粪厌氧共同消化过程中沼气产量最高的优化条件是温度 35 °C、pH 值 7 和混合比(CM:FW = 1.5:0.5)。方差分析显示,温度是影响沼气产量最重要的输入参数,其次是混合比。
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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