不同成分变化下牛粪与甘蔗渣混合发酵产沼气的初步观察

H. Hadiyanto, Figa Muhammad Octafalahanda, Jihan Nabila, Andono Kusuma Jati, M. Christwardana, K. Kusmiyati, A. Khoironi
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引用次数: 5

摘要

可再生能源的需求至关重要,因为它有望取代化石能源。农村地区常用的可再生能源之一是生物质能源。沼气是一种基于生物质的能源,其中有机物质通过厌氧消化过程转化为甲烷气体。单一原料沼气的局限性是消化过程不稳定,产生的沼气产量低,需要调整C/N比,因此提出了共消化工艺来克服这些问题。本研究旨在研究不同重量比组合下牛粪和蔗渣渣混合物厌氧共消化的可行性。使用由蔗渣与牛粪重量比(1:5、1:2、1:1和3:1)的组合组成的混合基质通过厌氧消化产生沼气。通过将Gompertz和Logistic模型与累积沼气的实验数据拟合来评估动力学分析。结果表明,蔗渣废弃物与牛粪比例为1:5的组合获得了最佳的沼气产量,累积沼气量为31000 mL。Gompertz和Logistic的动力学模型能够预测比例为1:50(牛:蔗渣)时的最大累积沼气量分别为31157.66 mL和30112.12 mL。动力学参数的其他预测分别是Gompertz和Logistic模型的最大沼气生产速率(Rm)=1720.45 mL/天和1652.31 mL/天。Gompertz和Logistic模型的滞后期分别为2.403天和2.612天。沼气的潜在发电量估计为338.71瓦。这项研究证明了将两种饲料(牛粪和蔗渣)共同消化用于沼气生产的积极可行性。
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Preliminary Observation of Biogas Production from a Mixture of Cattle Manure and Bagasse Residue in Different Composition Variations
The need of renewable energy is paramount important as it is expected to replace fossil energy. One of renewable energy commonly used for rural area is biomass-based energy. Biogas is a biomass-based energy where organic materials are converted to methane gas via anaerobic digestion process. The limitations of mono-feedstock biogas are instability digestion process, low yield biogas produced and require readjusting C/N ratio, therefore co-digestion process was proposed to overcome these problems. This study aims to investigate the feasibility of anaerobic co-digestion of a mixture of cattle manure and bagasse residue in different weight ratio combinations. Biogas was generated by anaerobic digestion using a mixed substrate composed of a combination of weight ratios of bagasse:cattle manure (1:5, 1:2, 1:1, and 3:1). The kinetic analysis was evaluated by fitting Gompertz and Logistic model to experimental data of cumulative biogas. The result showed that the combination of 1:5 ratio of bagasse waste to cattle manure obtained the best biogas yield with cumulative biogas at 31,000 mL. The kinetic model of Gompertz and Logistic were able to predict the maximum cumulative biogas at ratio of 1:5 (cattle: bagasse) at 31,157.66 mL and 30,112.12 mL, respectively. The other predictions of kinetic parameters were maximum biogas production rate (Rm)= 1,720.45 mL/day and 1,652.31 mL/day for Gompertz and Logistic model, respectively. Lag periods were obtained at 2.403 day and 2.612 day for Gompertz and Logistic model, respectively. The potential power generation of 338.71 Watt has been estimated from biogas. This research has proven a positive feasibility of co-digestion of two feed-stocks (cattle manure and bagasse) for biogas production.
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CiteScore
4.50
自引率
16.00%
发文量
83
审稿时长
8 weeks
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