基于生命周期评价方法的城市生活垃圾管理系统改良市场垃圾处理环境影响评价

Q4 Environmental Science

Ecological Engineering Environmental Technology Pub Date : 2022-03-01 DOI:10.12912/27197050/144955

R. Aziz, Dina Fitria, Y. Ruslinda

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引用次数: 2

摘要

佩亚昆布市政府在伊布市场建造了一座综合废物处理厂（TPST），通过堆肥处理废物来减少废物。本研究旨在使用生命周期评估（LCA）方法评估Ibuh Market废物管理系统与一些固体废物管理替代方案的环境影响。研究阶段包括对废物产生、成分和回收潜力的测量和分析，然后将生命周期评价应用于堆肥废物管理场景（场景1）、不堆肥（场景2）以及堆肥和回收（场景3）。Ibuh Market产生的废物为8.99吨/天，食物垃圾在废物成分中所占比例最高，达到80.60%，最有可能回收的废物是无机废物，占72.37%。采用CML-IA影响评估方法进行了生命周期评价。根据全球变暖潜能、酸化潜能和富营养化潜能影响类别的加权结果，情景2的权重最高，为4.34×10-7，情景3的权重最小，为3.73×10-7。因此，方案3被选为最佳方案，因为它具有最低的影响权重。该研究建议在运输过程中使用生物燃料作为燃料的替代品，在TPST的堆肥过程中应用改良的开放式风箱曝气系统，并实施卫生填埋，以成为一个更环保的固体废物管理系统。

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Environmental Impact Evaluation of Improved Market Waste Processing as Part of Municipal Solid Waste Management System Using Life Cycle Assessment Method

Payakumbuh City Government has built an Integrated Waste Treatment Plant (TPST) in Ibuh Market as an effort to reduce waste through waste processing by composting. This study aimed to evaluate the environmental impact of the Ibuh Market waste management system with some solid waste management alternatives using the Life Cycle Assessment (LCA) Method. The stages of the research consisted of the measurement and analysis of waste generation, composition, and recycling potential, followed by the application of LCA for composting waste management scenario (scenario 1), with no composting (scenario 2), as well as with composting and recycling (scenario 3). The waste generated by Ibuh Market is 8.99 tons/day, food waste has the highest share in waste composition, amounting to 80.60%, and the waste with the greatest potential to recycle is an inorganic waste by 72.37%. LCA was carried out using the CML-IA impact assessment method. On the basis of the weighting results of the Global Warming Potential, Acidification Potential, and Eutrophication Potential impact categories show that scenario 2 has the highest weight, which is 4.34 × 10-7, scenario 3 has the smallest weight that is 3.73 × 10-7. Hence, scenario 3 was chosen as the best option, because it has the lowest impact weight. The study recommended using biofuels as an alternative to the fuels in the transportation process, applying a modified open windrow aeration system in the composting process at TPST, as well as practicing the sanitary landfill, for becoming a more environmentally friendly solid waste management system.

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