Economic and environmental benefits of optimized waste transportation routes in Khulna

Q2 Environmental Science
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Abstract

Urban transportation is a big source of pollution and greenhouse gas emissions. Khulna City handles the waste of 1.23 million people daily, using Heavy Duty Diesel Vehicles (HDDV) that release major environmental pollutants. The current waste transportation routes lack proper planning, leading to extra fuel consumption and pollutant emissions. This study aims to reduce fuel consumption and socio-environmental costs by improving waste transportation routes. Present collection routes, collecting points, and the speed of 30 waste collector vehicles were tracked using GPS devices for ten months between July 2023 and April 2024. The network dataset was modified according to four types of waste collector vehicles. ArcGIS Pro was used to find the optimal paths and their lengths. Fuel usage and prices were estimated using simple fuel consumption rate calculations. The lengths of current and optimal routes were used in COPERT to measure pollutant emissions. The results show that improved routes lower fuel consumption costs by approximately USD 55.39 per day and CO2 emissions by about 38.242 tonnes per year. Reductions in CO, CH4, NMVOC, NO2, PM10, and PM2.5 were roughly 9.3%, 9.53%, 9.21%, 9.29%, 9.35%, and 9.3%, respectively. This study demonstrates a comprehensive approach for improving solid waste management covering both financial efficiency and environmental effects.
库尔纳优化废物运输路线的经济和环境效益
城市交通是污染和温室气体排放的一大来源。库尔纳市每天要处理 123 万人的垃圾,使用的重型柴油车(HDDV)会释放出大量的环境污染物。目前的垃圾运输路线缺乏合理规划,导致额外的燃料消耗和污染物排放。本研究旨在通过改善垃圾运输路线,减少燃料消耗和社会环境成本。在 2023 年 7 月至 2024 年 4 月的 10 个月期间,使用 GPS 设备对目前的收集路线、收集点和 30 辆垃圾收集车的速度进行了跟踪。根据四种类型的垃圾收集车修改了网络数据集。使用 ArcGIS Pro 找到最佳路径及其长度。使用简单的燃料消耗率计算方法估算了燃料用量和价格。COPERT 使用当前路线和最优路线的长度来测量污染物排放量。结果显示,改进后的路线每天可降低燃料消耗成本约 55.39 美元,每年可减少二氧化碳排放量约 38.242 吨。CO、CH4、NMVOC、NO2、PM10 和 PM2.5 的减排量分别约为 9.3%、9.53%、9.21%、9.29%、9.35% 和 9.3%。这项研究展示了一种改善固体废物管理的综合方法,既能提高经济效益,又能改善环境影响。
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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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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