Valorization of food waste for biogas production; effect of co-ensiling with maize straw at different C/N ratios

Nigerian Journal of Technology Pub Date : 2023-08-11 DOI:10.4314/njt.v42i2.17

J. Undiandeye, S. Kiman, M. Abubakar, H. Mohammed

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Abstract

Food waste (FW) contribute to emission of greenhouse gases as well as environmental pollution. One way of reducing the impact of FW on the environment is by using it for biofuel production. The yield of biofuel from FW can be improved if the substrate is pretreated. In this study, ensiling was used as a cost effective method of pretreating FW for biomethane production. Co-ensiling of FW and maize straw (MS) was carried out at carbon to nitrogen ratios (C/N) of 20, 25, 30 and 35 for 210 days at ambient temperature. Thereafter, the biomethane potential (BMP) of the silages was determined using an automatic biomethane potential test system. Results showed that ensiling reduced both structural and non-structural carbohydrate components of the silages. BMPs of 385.58, 497.39, 520.53, 551.37, 542.16 and 517.29mL/gVS from the unensiled FW, ensiled FW without MS, co-ensiled FW at C/N ratio of 20, co-ensiled FW at C/N ratio of 25, co-ensiled FW at C/N ratio of 30 and co-ensiled FW at C/N ratio of 35 respectively were obtained. A kinetic evaluation showed that the dual pool model gave a better prediction of the experimental BMP of all substrates than the first-order model and the modified Gompertz model.

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利用食物垃圾生产沼气;不同碳氮比下玉米秸秆共青贮的效果

食物垃圾不仅会排放温室气体，还会污染环境。减少FW对环境影响的一种方法是将其用于生物燃料生产。如果对底物进行预处理，可以提高FW的生物燃料产量。在本研究中，青贮是一种经济有效的预处理FW生产生物甲烷的方法。采用碳氮比(C/N)分别为20、25、30和35的玉米秸秆与FW共青贮210 d。然后，利用生物甲烷电位自动测试系统测定青贮饲料的生物甲烷电位(BMP)。结果表明，青贮降低了青贮饲料结构碳水化合物和非结构碳水化合物的含量。未青贮、无MS青贮、C/N比为20时共青贮、C/N比为25时共青贮、C/N比为30时共青贮和C/N比为35时共青贮的bmp分别为385.58、497.39、520.53、551.37、542.16和517.29mL/gVS。动力学评价表明，双池模型比一阶模型和改进的Gompertz模型能更好地预测所有基质的BMP。

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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