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不同处置年限下垃圾渗滤液中污染物成分的自然衰减及特征分析

Natural attenuation and characterization of contaminants composition in landfill leachate under different disposing ages.

作者信息

Ziyang Lou, Youcai Zhao, Tao Yuan, Yu Song, Huili Chen, Nanwen Zhu, Renhua Huan

机构信息

School of Environmental Science and Engineering, Shanghai Jiaotong University, Shanghai 200240, PR China.

出版信息

Sci Total Environ. 2009 May 1;407(10):3385-91. doi: 10.1016/j.scitotenv.2009.01.028. Epub 2009 Feb 12.

Abstract

Chemical Oxygen Demand (COD) composition in landfill leachate would vary as the disposal time extended. Leachates with different ages were collected from Laogang Refuse Landfill of Shanghai, the largest landfill in China with a placement scale of 7600 t refuse per day. To characterize COD composition in leachate, samples were size-fractioned into suspended fractions (>0.45 microm), colloid fraction (0.45 microm<fraction<1 K Da MW) and dissolved fractions (<1 KDa MW) based on the molecular weight distribution. The fractions <0.45 microm (including colloid fraction and dissolved fractions) in leachate were further divided into 6 fractions, i.e. hydrophobic bases (Ho-base), hydrophobic acids (Ho-acid), hydrophobic neutral (Ho-neutral), hydrophilic bases (Hi-base), hydrophilic acids (Hi-acid) and hydrophilic neutral (Hi-neutral). It was found that the ratio of TOC/TC in leachate decreased over time, indicating that the percentage of organic matters in leachate decreased as the disposal time extended. It was also observed that the hydrophobic fraction accounted to about 50% of the total matters presented in the fraction <0.45 microm of all leachate samples. The main components in <0.45 microm fraction were the Ho-acid, Hi-acid and Hi-base fractions. The percentage of Ho-acid in leachate decreased from 60.8% (2 a) to 43.2% (12 a). In addition, leachate with different ages was categorized into 3 phases according to the results of Principle component analysis (PCA). TOC/COD ranges of leachate in periods I, II and III were 40-54.6%, 16.9-41.3% and 10-38.9%, respectively, indicating that the COD contribution of non-carbon reduction substances increased over time in leachate. Hence, the corresponding landfill leachate treatment process should be modified according to the leachate characterization. The results obtained in this study might provide the important information for modeling, design, and operation of landfill leachate treatment systems.

摘要

随着填埋时间的延长,垃圾渗滤液中的化学需氧量(COD)组成会发生变化。从上海老港垃圾填埋场收集了不同年份的渗滤液,该填埋场是中国最大的垃圾填埋场,日处理垃圾规模为7600吨。为了表征渗滤液中的COD组成,根据分子量分布将样品按尺寸分级为悬浮组分(>0.45微米)、胶体组分(0.45微米<组分<1 kDa分子量)和溶解组分(<1 kDa分子量)。渗滤液中<0.45微米的组分(包括胶体组分和溶解组分)进一步分为6个组分,即疏水碱(Ho-碱)、疏水酸(Ho-酸)、疏水中性物(Ho-中性)、亲水碱(Hi-碱)、亲水酸(Hi-酸)和亲水中性物(Hi-中性)。研究发现,渗滤液中TOC/TC的比值随时间下降,这表明随着填埋时间的延长,渗滤液中有机物的百分比降低。还观察到,疏水组分约占所有渗滤液样品<0.45微米组分中总物质的50%。<0.45微米组分中的主要成分是Ho-酸、Hi-酸和Hi-碱组分。渗滤液中Ho-酸的百分比从60.8%(2年)降至43.2%(12年)。此外,根据主成分分析(PCA)的结果,将不同年份的渗滤液分为3个阶段。渗滤液在第一、二、三阶段的TOC/COD范围分别为40-54.6%、16.9-41.3%和10-38.9%,这表明渗滤液中不可生物降解的非碳还原物质的COD贡献随时间增加。因此,应根据渗滤液的特性对相应的垃圾渗滤液处理工艺进行调整。本研究所得结果可能为垃圾渗滤液处理系统的建模、设计和运行提供重要信息。

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