• 关键词：渗滤液循环  活性污泥  脱氮

• 基金项目：国家重点基础研究计划项目(973)(No.2004CB418505);国家自然科学基金(No.50478009);吉林大学"985工程"项目

• 张文静
• 吉林大学环境与资源学院, 长春 130026

• 赵勇胜
• 吉林大学环境与资源学院, 长春 130026

• 孙景刚
• 吉林大学环境与资源学院, 长春 130026

• 宋宝华
• 吉林大学环境与资源学院, 长春 130026

• 摘要：通过对比实验,对顶部木屑层通风和添加活性污泥实现渗滤液循环原位脱氮的可行性进行了研究.实验结果表明,相比于单纯的渗滤液循环,在垃圾体顶部添加的木屑层中通风可以有效地解决渗滤液循环中NH₄⁺-N的积累问题,NH₄⁺-N的去除率达到77 83%,同时也将COD_Cr去除率提高了14.46%;在木屑层中加入活性污泥并通风不仅通过提高反应体系内的C/N比改善了微生物的生长环境,还向反应体系内引入了微生物,相比于顶部木屑层通风的渗滤液循环,其NH₄⁺-N的去除率提高了13.73%,COD_Cr的去除率提高了10.64%.

• Abstract：Three experiments have been done to study the feasibility of in situ nitrogen removal by aeration into the wood chips layer and addition of activated sludge in the leachate recirculation. The results show that comparing to the single leachate recirculation, the air injection at the top of the solid waste can decrease the ammonium accumulation effectively. The NH₄⁺-N removal rate reaches to 77.83% and COD_Cr removal rate increases 14.46% at the same time. In addition, adding the activated sludge into the aerated wood chips layer can not only improve the living circumstance of the microorganism by increasing the C/N ratio, but also introduces microorganism into the reaction system. Comparing to the aeration into the wood chips layer in the leachate recirculation, its NH₄⁺-N and COD_Cr removal rate increase 13.73% and 10.64%, respectively.

• Key words：leachate recirculation  activated sludge  removal of nitrogen

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