Comparison study of ammonia and COD adsorption on zeolite, activated carbon and composite materials in landfill leachate treatment

IF 8.3 1区工程技术 Q1 ENGINEERING, CHEMICAL

Desalination Pub Date : 2010-11-15 DOI:10.1016/j.desal.2010.05.036

Azhar Abdul Halim , Hamidi Abdul Aziz , Megat Azmi Megat Johari , Kamar Shah Ariffin

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引用次数: 269

Abstract

Chemical oxygen demand (COD) and ammoniacal nitrogen have always been the crucially problematic parameters in landfill leachate treatment. This study was conducted to investigate the adsorption properties of ammoniacal nitrogen and COD in semi-aerobic leachate from the Pulau Burung landfill site on zeolite, activated carbon and a new composite media in terms of adsorption isotherm and kinetic. The results show that all adsorbents fitted well with both Langmuir and Freundlich isotherms (R² > 0.9) for ammonia adsorption. A comparison study indicated that the adsorption capacity of composite adsorbent towards ammoniacal nitrogen was higher than zeolite and activated carbon and comparable to activated carbon for COD. Findings from a kinetic study indicated that the adsorption of ammonia on new composite adsorbent and zeolite follow almost all kinetic models such as pseudo-first-order, pseudo-second-order, Elovich and intra-particle diffusion model, although pseudo-second-order was the most dominant. COD adsorption fitted well with the pseudo-second-order kinetic model, while activated carbon obeys the pseudo-first-order and intra-particle models.

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沸石、活性炭和复合材料处理垃圾渗滤液中氨氮和COD的吸附比较研究

化学需氧量(COD)和氨态氮一直是垃圾渗滤液处理中存在问题的关键参数。研究了沸石、活性炭和新型复合介质对布隆岛垃圾填埋场半好氧渗滤液中氨态氮和COD的吸附等温线和动力学特性。结果表明:各吸附剂均符合Langmuir和Freundlich等温线(R2 >0.9)用于氨吸附。对比研究表明，复合吸附剂对氨态氮的吸附能力高于沸石和活性炭，对COD的吸附能力与活性炭相当。动力学研究结果表明，新型复合吸附剂和沸石对氨的吸附几乎符合拟一阶、拟二阶、Elovich和颗粒内扩散等所有动力学模型，但以拟二阶模型占主导地位。COD的吸附符合准二级动力学模型，而活性炭则符合准一级动力学模型和颗粒内动力学模型。

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来源期刊

Desalination 工程技术-工程：化工

CiteScore

14.60

自引率

20.20%

发文量

619

审稿时长

41 days

期刊介绍： Desalination is a scholarly journal that focuses on the field of desalination materials, processes, and associated technologies. It encompasses a wide range of disciplines and aims to publish exceptional papers in this area. The journal invites submissions that explicitly revolve around water desalting and its applications to various sources such as seawater, groundwater, and wastewater. It particularly encourages research on diverse desalination methods including thermal, membrane, sorption, and hybrid processes. By providing a platform for innovative studies, Desalination aims to advance the understanding and development of desalination technologies, promoting sustainable solutions for water scarcity challenges.