Evaluation of the fate of trace organic compounds using the Level III fugacity model: a case study of Rajbandh open dump site in Khulna City of Bangladesh

K. M. Pangkaj, I. M. Rafizul, E. Kraft, S. Berner
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Abstract

Abstract Khulna is the 3rd largest city corporation in Bangladesh that produces 450 tons of Municipal solid waste (MSW) per day and dumps the waste in the Rajbandh open dump site. The main focus of this study is to determine the fate of chemicals in different environmental media at the Rajbandh open dump site. To accomplish the aim Level III fugacity model was evaluated which is subject to steady-state partitioning, reaction, advection, and intercompartmental transfer in an evaluative environment consisting of three compartments landfill gas (LFG), leachate, and waste. In this study, the model was implemented for six chemicals Trichloroethylene, Mono-chlorobenzene, 1,4-dichlorobenzene, 1,2,4-trichlorobenzene, Hexachlorobenzene, and Benzene having different physiochemical properties. The result reveals that Benzene was found with the highest fugacity value of 2.03E + 00 Pa in all compartments while Hexachlorobenzene shows the highest value of concentration 2.67E-01 mol/m 3 in the waste compartment. Regarding mass distribution, all chemical shows a higher mass remaining in the waste compartment in comparison with the other compartment. The result also reveals that the dominating removal process of a chemical from the system is the reaction process. For all the chemicals almost all the mass is removed from the environment by reaction process rather than advection in LFG and leachate. Finally, the estimated behavior of the selected chemical will help to evaluate the health and ecological hazards at the open dump site and take necessary steps to control the emission of such hazardous chemicals from the open dump site by the authority.
利用III级逸出性模型评价微量有机化合物的归宿:以孟加拉国库尔纳市拉杰班德露天垃圾场为例
库尔纳是孟加拉国第三大城市公司,每天生产450吨城市固体废物(MSW),并将废物倾倒在拉杰班德的露天垃圾场。本研究的主要重点是确定化学物质在拉杰班德露天垃圾场不同环境介质中的命运。为了实现这一目标,在由垃圾填埋气、渗滤液和废物组成的三个隔间的评估环境中,评估了受稳态分配、反应、平流和室间转移影响的III级逸度模型。在本研究中,对六种具有不同物理化学性质的化学物质三氯乙烯、一氯苯、1,4-二氯苯、1,2,4-三氯苯、六氯苯和苯进行了模型实现。结果表明,苯的逸度值最高,为2.03E + 00 Pa;六氯苯的逸度值最高,为2.67E-01 mol/m 3;在质量分布方面,所有化学物质在废仓中的剩余质量都高于其他仓。结果还表明,化学物质从系统中去除的主要过程是反应过程。对于所有的化学物质,几乎所有的质量都是通过反应过程从环境中去除的,而不是在LFG和渗滤液中平流。最后,所选化学品的估计行为将有助于评价露天倾倒场的健康和生态危害,并有助于当局采取必要步骤,控制这种危险化学品从露天倾倒场的排放。
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