从当地食物垃圾中获取沼气能量的研究及沼气池和烤炉在Injera制备中的整合——以贡达尔大学学生食堂为例

Ashenafi Tesfaye Bicks
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引用次数: 4

摘要

在埃塞俄比亚的这所大学里,能源短缺是准备食物的主要问题。由于烤盘的性质和系统的布置,烤盘要消耗大量的柴火。每天平均耗用柴火8600公斤,折合燃气790.3立方米。在本研究中,通过评估大学生食堂的每日废物产生率和配置利用沼气能源的烘焙炉(mitad),对食物垃圾的能源产量进行了调查。采用CFD方法研究了烘烤胶团的性能和热量分布。在研究中,测量到的校园内平均每日可生物降解的食物垃圾和厨余垃圾产生率约为863公斤/天。使用厌氧消化系统对这些食物垃圾进行转化,每天产生43.2立方米沼气。利用每天烘焙英杰拉产生的沼气改善了整个食品制作过程,并减少了5.4%的柴火消耗。这种沼气产生的能量被认为是用来在厨房里烘烤英杰拉。所设计的沼气炉(炉)由于使用的燃料类型和烘烤炉的配置,不会产生烟雾。此外,炉子有一个保温机制,考虑保存热量损失到周围。一般来说,沼气系统的利用和沼气炉烤炉的集成将改善大学食品加工的整体机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of Biogas Energy Yield from Local Food Waste and Integration of Biogas Digester and Baking Stove for Injera Preparation: A Case Study in the University of Gondar Student Cafeteria
Energy shortage is the main problem while preparing food at the university in Ethiopia. Baking of injera consumes a lot of firewood due to the nature of baking mitad and layout of the system. The daily average firewood consumption is 8600 kg which is equivalent to 790.3 m3 of gas. In this study, an investigation of energy yield from food waste is examined by assessing the daily waste generation rate from the university student cafeteria and configuring the baking stove (mitad) that utilizes biogas energy. CFD is used to investigate the performance and heat distribution of baking mitad. In the study, the measured average daily biodegradable food waste and kitchen waste generation rate in the campus is around 863 kg/day. The conversion of this food waste using the anaerobic digestion system yields 43.2 m3 biogas per day. Utilizing the daily biogas generated for baking injera improves the overall food making process and reduces firewood consumption by 5.4%. This biogas energy yield is considered to be utilized for baking injera in the kitchen. The designed biogas mitad (stove) does not generate smoke due to the type of fuel used and configuration of baking mitad. Furthermore, the stove has an insulation mechanism considered to conserve the heat loss to the surrounding. Generally, the utilization of the biogas system and integration of the biogas injera baking stove will improve the overall food processing mechanism in the university.
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