Evaluation of Biogas Energy from Co-Digestion of Organic Urban Solid Waste with Lime Mud

IF 4.6 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Recycling Pub Date : 2023-07-01 DOI:10.3390/recycling8040057
Ulisses Raad da Silva Coelho, A. Crispim, M. Martins, R. Barros, M. Renó, Geraldo Lúcio Tiago Filho, Ivan Felipe Silva dos Santos
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引用次数: 0

Abstract

The elevated presence of organic material in Brazilian urban solid waste, along with mismanagement of its disposal, can aggravate environmental problems from greenhouse gas emissions to water and soil pollution. In parallel, the paper and cellulose industries consume considerable resources and produce important solid wastes, including lime mud. These urban and industrial realities present common ground, from which a little-studied alternative arises in using biogas electrical energy from the co-digestion of the organic portion of urban solid waste using lime mud. This intersection can reduce the environmental impacts associated with inadequate management and disposal of solid waste, providing industry financial economy resources and contributing to Brazilian energy grid diversification. The current study used economic–financial indicators to evaluate the proposal’s economic feasibility. The obtained results presented a minimum population of 165,200 inhabitants, generating 39,295.77 m3/year of methane, in order to enable a co-digestion proposal. The sensitivity analysis indicated that a population of 185,500 inhabitants would provide a 10-year payback, an energy rate of USD 0.139, and 44,124.49 m3/year of methane to supply the population with power. The net present value was USD 23,336.94, with an internal return rate of 14.71% and a levelized energy cost of 0.103 USD/kWh.
城市有机固体废物与石灰泥共消化沼气能量评价
巴西城市固体废物中有机物质的含量升高,加上处置管理不善,可能会加剧从温室气体排放到水和土壤污染的环境问题。与此同时,造纸和纤维素工业消耗大量资源,产生重要的固体废物,包括石灰泥。这些城市和工业的现实呈现出共同的基础,由此产生了一种很少研究的替代方案,即利用石灰泥共同消化城市固体废物的有机部分来利用沼气电能。这一交叉点可以减少因固体废物管理和处置不当而对环境造成的影响,为工业提供金融经济资源,并有助于巴西能源网的多样化。目前的研究使用经济金融指标来评估提案的经济可行性。所获得的结果表明,最低人口为165,200人,每年产生39,295.77立方米的甲烷,以实现共同消化的提议。敏感性分析表明,185,500人口将提供10年的回报,能源价格为0.139美元,每年44,124.49立方米的甲烷为人口提供电力。净现值为23336.94美元,内部回报率为14.71%,平准化能源成本为0.103美元/千瓦时。
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来源期刊
Recycling
Recycling Environmental Science-Management, Monitoring, Policy and Law
CiteScore
6.80
自引率
7.00%
发文量
84
审稿时长
11 weeks
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