城市固体废物倾倒场甲烷排放:以印度金奈市为例

Pavithrapriya Srinivasan, R. Andimuthu, S. Ibrahim, Prasannavenkatesh Ramachandran, Easwari Rajkumar, P. Kandasamy
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引用次数: 3

摘要

全球人口的无差别增长对世界城市固体废物的处理和处置构成了威胁。快速的城市增长增加了城市固体废物的生产、消费和产生,从而导致环境的急剧变化。城市固体废物产生的甲烷占全球人为排放量的11%,这是全球变暖的主要原因。本研究报告了利用IPCC默认值、TNO、LandGEM、EPER和封闭通量室对印度金奈Perungudi和Kodungaiyur露天垃圾场的甲烷排放进行估算。结果表明:封闭通量室的甲烷排放量分别为8.8 ~ 11.3 Gg/yr和6.1 ~ 9.1 Gg/yr。人均废物产生量是根据废物产生量和人口来估计的。利用线性回归模型预测了2017-2050年期间的废物产生潜力。实测CH4排放趋势呈逐年增加趋势,IPCC默认方法(质量平衡法)、德国EPER(零阶衰减模型)的CH4排放趋势也呈逐年增加趋势,TNO和Land GEM(一阶衰减模型)呈下降趋势。本研究表明,与Perungudi堆场相比,Kodungaiyur堆场更容易产生甲烷排放,并且在废物转化为能源的机制方面比Perungudi堆场更有潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methane emission from municipal solid waste dumpsites: A case study of Chennai city in India
The indiscriminate growth in global population poses a threat to the world in handling and disposal of Municipal solid waste. Rapid urban growth increases the production, consumption and generation of Municipal solid waste which leads to a drastic change in the environment. The methane produced from the Municipal Solid waste accounts for up to 11% global anthropogenic emissions, which is a major cause for global warming. This study reports the methane emission estimation using IPCC default, TNO, LandGEM, EPER and close flux chamber from open dump yards at Perungudi and Kodungaiyur in Chennai, India. The result reveals that the methane emission using close flux chamber was in the range of 8.8 Gg/yr-11.3 Gg/yr and 6.1Gg/yr to 9.1 Gg/yr at Kodungaiyur and Perungudi dump yard respectively. The per capita waste generation was estimated based on waste generation and population. The waste generation potential was projected using linear regression model for the period 2017-2050. The trend of CH4 emission in the actual field measurement were increased every year, similarly the emission trend also increased in IPCC default method (mass balance approach), EPER Germany (zero order decay model) where as TNO and Land GEM (first order decay model) were decreased. The present study reveals that Kodungaiyur dump yard is more vulnerable to methane emission compared to Perungudi dump yard and has more potential in waste to energy conversion mechanisms than compare to Perungudi dump yard.
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