Agnesika Fitrisari, Rosadi Rosadi, Indarti Komala Dewi
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引用次数: 0
摘要
在全球、国家和城市层面,废物是温室气体排放的最大来源之一。本研究的目的是利用动态系统方法的模拟模型,分析温室气体废物部门的各种减排政策方案。该模拟适用于2020年至2050年。有四种情景:BAU情景,当前废弃物管理;一个基于Jakstrada计划的场景;B情景,甲烷气体捕集技术在Cipayung垃圾填埋场、IPAL公共设施和化粪池的应用;C场景,即Jakstrada程序和甲烷气体捕获技术在Cipayung垃圾填埋场,IPAL公共和化粪池的应用。2020年Depok的温室气体排放量为414.966.80吨CO2/年。排放最多的是废水和垃圾填埋场的堆积,分别为232.053 t CO2/年和173864.8 t CO2/年。在一个情景中,温室气体减少了3.38%。B方案是将温室气体减少到93.6%,其中21.99%是未经管理的废物,7%是燃烧的废物。C方案成功地减少了96%,11%和100%的管理废物,这是最多的。减少温室气体排放需要废物管理和技术应用并举。
MODEL OF GREENHOUSE GAS EMISSION REDUCTION WASTE SECTOR IN DEPOK CITY
Waste is one of the largest sources of greenhouse gas emission (GHG) at the global, national, and Depok city levels. The purpose of this study was to analyze various alternative of reduction policy scenarios of the GHG waste sector used simulation model with dynamic system approach. The simulation applied from 2020 to 2050. There are four scenarios: BAU scenario, the current waste management; A scenario, based on the Jakstrada program; B scenario, the application of methane gas captured technology on Cipayung landfill, IPAL communal, and Septic tank; C scenario which is the application of Jakstrada program and methane gas captured technology on Cipayung landfill, IPAL communal, and septic tank. The amount of GHG waste sector in Depok 2020 is 414.966,80 Tons CO2/year. The largest amount of emission was originating from wastewater and waste accumulation in landfills, which is 232.053 Tons CO2/year and 173,864,8 Tons CO2/year. A scenario GHG is decreasing by 3,38%. B scenario is decreasing the GHG into 93,6% with 21,99% unmanaged waste and 7% burnt waste. C scenario was successfully decreasing 96,11% and 100% managed waste which is the most. For decreasing the GHG waste sector, it needs the waste management and the technology application are done simultaneously.
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