封面(代数)
复合数
填埋气
环境科学
挥发性有机化合物
石油工程
岩土工程
废物管理
地质学
材料科学
工程类
化学
复合材料
城市固体废物
机械工程
有机化学
作者
Xiting Gu,Haijian Xie,Chao Zhou,Xiaobin Chen
摘要
ABSTRACT Layered cover structures are widely used as landfill environmental barriers to reduce the escape of odor gases. An innovative two‐dimensional analytical model is developed to examine volatile organic compounds (VOCs) migration via a four‐layered soil cover made up of a gas recovery layer, compacted clay liner (CCL) layer, geomembrane (GMB), and protective layer. The effects of source concentration distribution, LFG collection system, saturation degree, contaminant degradation rate, and GMB on cover system performance were evaluated. For a significantly more tightly clustered source concentration, 1D models tend to produce more conservative results in contrast to the 2D models based on the analysis of nonuniform contamination source distribution. Results show that increasing saturation degree ( S r ) and degradation rate lead to lower steady‐state surface flux. VOCs migration in the cover system is more sensitive to S r variation in the CCL and gas recovery layer than that in the protective layer. The 2D results suggest that decreasing the half‐life of the contaminant to 0.01 years when S r 1 = S r 2 = S r 4 = 0.5 can improve the cover system performance. An intact GMB layer and the gas collection flow rate of over 6 m 3 /s are required for the cover system to achieve a 70% LFG collection efficiency and satisfy the surface flux tolerance value. The proposed analytical model can be used for the preliminary design of the landfill cover system and verification of the complex numerical model.
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