Eli Hendrik Sanjaya, Annisa Elchamida, Dita Ayu Eka Saputri, S. Prabaningtyas, Agung Witjoro, Evi Susanti
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引用次数: 0
摘要
随着印度尼西亚人口的不断增长,生活垃圾的产生量也在增加。有必要在废水进入环境之前对其进行处理,以防止对环境造成污染。本研究旨在调查来自马兰大学生物系的分离菌 A、B 和 L 作为细菌联合体在有氧系统中分解生活垃圾的潜力,以批处理系统去除化学需氧量。实验使用合成生活垃圾进行,细菌配方处理和启动剂剂量各不相同。结果表明,在批量试验过程中获得了更稳定的 COD 减排性能。COD 减排数据效率依次为 B 20%(88.65%)、L 20%(84.2%)、A 10%(80%)、A 20%(79.92%)、ABL 10%(72.3%)、B 10%(25.67%)、ABL 20%(-10.87%),其中 L 10%处理效率最高,为 89.76%。基因型分析表明,A、B 和 L 分离物被鉴定为氨氧化烯钙铝菌(Alcaligenes ammonioxydans
Potential of the Consortium Bacteria as A Domestic Waste Water Bioremediation Agent
Along with the increasing population in Indonesia, there has been an increase in domestic waste production. It is necessary to treat wastewater before it goes to the environment to prevent pollution of the environment. This research was conducted to investigate the potential of isolates A, B, and L from the Biology Department Universitas Negeri Malang as a bacterial consortium in decomposing domestic waste with the aerobic system to remove Chemical Oxygen Demand using a batch system. Experimental trials were carried out using synthetic domestic waste with variations in bacterial formulation treatments and starter doses. The results show that a more stable COD reduction performance was obtained in the batch test process. Sequentially, the COD reduction data efficiency includes B 20% (88.65%), L 20% (84.2%), A 10% (80%), A 20% (79.92%), ABL 10% (72.3%), B 10% (25.67%), ABL 20% (-10.87%), with the greatest efficiency occurring in the L10% treatment at 89.76%. The genotype analysis shows that A, B, and L isolates were identified as Alcaligenes ammonioxydans
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