Investigation of Solid Waste Characteristics in Field-Scale Landfill Test Cells

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引用次数: 6

Abstract

This paper presents the results of an experimental study carried out in field-scale test cells in order to determine the effect of aeration and leachate recirculation on waste decomposition rate, solid waste characteristics, landfill gas composition and settlement in the landfill body. Four landfill test cells with the dimensions of 20 m x 40 m x 5 m were constructed in Komurcuoda Sanitary Landfill, Istanbul. Solid wastes representing Istanbul Asian side waste characteristics were landfilled in the test cells and they were operated simulating anaerobic (AN1), leachate recirculated anaerobic (AN2), semi-aerobic (A1) and aerobic landfilling (A2) methods. Alternative landfilling methods for accelerating solid waste stabilization in landfills were investigated by means of solid waste characteristics (elemental analysis, pH, moisture content, TOC, TKN, C/N ratio, volatile solid content (VS), biochemical methane potential (BMP), and stability index (SI) analysis), landfill gas components (CH4, CO2, O2, and H2S), temperature variations in landfill body, and landfill settlement. The study indicated that aeration and leachate recirculation accelerate biodegradation rate. Higher rates of MSW biodegradation eventually provide reduction in the contaminant life span of the landfill by achieving a high waste volume reduction in a relatively short duration than anaerobic test cells, decrease the cost of long term monitoring incurred with post-closure of landfill sites. In case of impossibility of aerobic landfilling based on the results of the cost benefit analysis, it was stated out that semi-aerobic landfilling technology is also a viable method in shortening the stabilization time and accelerating the landfill gas production.
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填埋场试验池中固体废物特性的研究
为了确定曝气和渗滤液回灌对垃圾分解速率、固体废物特性、垃圾填埋气体组成和填埋场内沉降的影响,本文介绍了在现场规模试验池中进行的实验研究结果。在伊斯坦布尔Komurcuoda卫生填埋场建造了四个尺寸为20米× 40米× 5米的垃圾填埋场测试单元。在模拟厌氧(AN1)、渗滤液循环厌氧(AN2)、半好氧(A1)和好氧填埋(A2)方法的试验池中,对具有伊斯坦布尔亚洲侧垃圾特征的固体废物进行填埋。通过固体废物特性(元素分析、pH、水分含量、TOC、TKN、C/N比、挥发性固体含量(VS)、生化甲烷势(BMP)和稳定性指数(SI)分析)、填埋气体组分(CH4、CO2、O2和H2S)、填埋体温度变化和填埋沉降等指标,探讨了加速填埋场固体废物稳定化的几种填埋方法。研究表明,曝气和渗滤液回用可加快生物降解速率。与厌氧试验池相比,较高的城市生活垃圾生物降解率最终通过在相对较短的时间内实现高废物体积减少,从而减少垃圾填埋场的污染物寿命,降低垃圾填埋场关闭后长期监测的成本。根据成本效益分析结果,在不可能进行好氧填埋的情况下,指出半好氧填埋技术也是缩短稳定时间,加速垃圾填埋气产生的可行方法。
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