利用农工综合系统生产木薯淀粉的热回收系统中特定能耗的作用

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS
Vo Van Giau, Tran Trung Kien, Tran Van Thanh, Tran Thi Hieu, Nguyen Thi Phuong Thao, Le Thanh Son, Hans Schnitzer, Tran Le Luu, Le Thanh Hai
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引用次数: 0

摘要

背景降低能耗和温室气体排放是木薯淀粉加工业的一个关键问题。在这项研究中,在同一地区将畜牧业、木薯种植和木薯生产结合起来的综合系统既实现了零排放目标,又提高了经济效益,是有效的农工共生的典型例子。热交换/回收系统包括省煤器、热交换罐、沼气罐和锅炉。连接在锅炉烟囱上的省煤器将废气中的热量传递给进入锅炉的给水进行预热。沼气池从淀粉生产和畜牧业废水中回收能量,产生的沼气用作锅炉的燃料。具体能耗用于评估一家日产量为 20 吨的木薯淀粉厂的总体能效。结果表明,木薯淀粉行业将废物回收利用为能源的潜力很大。木薯淀粉厂每年节约的能源总量和减少的温室气体排放量分别为 0.054%/年和 123,564 千克二氧化碳/年。生产过程中产生的多余热量被用于蒸发(去除)沼气池废水中的 NH3,以及加热沼气系统以提高甲烷生产效率。在省煤器上安装了一个生物炭过滤器,用于吸附释放出的铵,吸附后的生物炭与沼气池中的污泥混合,制成固体生物肥料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of specific energy consumption in a heat recovery system for cassava starch production using an integrated agro-industrial system

Background

Reducing energy consumption and greenhouse gas emissions is a crucial issue in the cassava starch processing industry. In this study, the integrated system combining livestock, cassava cultivation and cassava production in the same area leads to both a zero emission goal and economic efficiency, a typical example of an effective agro-industrial symbiosis. A heat exchange/recovery system was applied including the economizer, heat exchanger tank, biogas tank, and boiler. The economizer attached to the boiler’s chimney transfers heat from exhaust gases for pre-heating feed water entering the boiler. The biogas tank recovers energy from the wastewater of starch production and livestock, and the generated biogas was used as fuel for the boiler.

Results

The energy and exergy efficiency, energy losses, and exergy destruction for the heat recovery system were analyzed. The specific energy consumption was used to evaluate the overall energy efficiency for a cassava starch factory with a capacity of 20 tons/day. The results show that there is a high potential to recycle waste into energy in the cassava starch industry. The total energy saving and reduced greenhouse gas emissions per year of the cassava starch factory were 0.054%/year and 123,564 kgCO2/per year, respectively.

Conclusions

Cassava starch factories can save energy and reduce emissions when applying a heat recovery system in the integrated agro-industrial system. Excess heat from the production was used for evaporating (removal of) NH3 in wastewater flow from the biogas tank, and for heating the biogas system to enhance the efficiency of methane production. A biochar filter was attached to the economizer for adsorption of released ammonium, and the biochar after adsorption was combined with sludge from the biogas tank to produce a solid biofertilizer.

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来源期刊
Energy, Sustainability and Society
Energy, Sustainability and Society Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
4.10%
发文量
45
审稿时长
13 weeks
期刊介绍: Energy, Sustainability and Society is a peer-reviewed open access journal published under the brand SpringerOpen. It covers topics ranging from scientific research to innovative approaches for technology implementation to analysis of economic, social and environmental impacts of sustainable energy systems.
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