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COD capture: a feasible option towards energy self-sufficient domestic wastewater treatment

descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 28 Apr 2016 Singapore Publisher:Springer Science and Business Media LLCJournal:Scientific Reports, volume 6 (eissn: 2045-2322,

Authors: Wan, Junfeng; Gu, Jun; Zhao, Qian; Liu, Yu;

doi: 10.1038/srep25054

pmid: 27121339

pmc: PMC4848554

handle: 10356/102535 , 10220/46519

COD capture: a feasible option towards energy self-sufficient domestic wastewater treatment

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Abstract

AbstractAlthough the activated sludge process, one of the most remarkable engineering inventions in the 20th century, has made significant contribution to wastewater reclamation in the past 100 years, its high energy consumption is posing a serious impact and challenge on the current wastewater industry worldwide and is also inevitably linked to the issue of global climate change. In this study, we argued that substantial improvement in the energy efficiency might be no longer achievable through further optimization of the activated sludge process. Instead, we should devote more effort to the development or the adoption of novel treatment configurations and emerging technologies. Of which an example is A-B process which can significantly improve the energy recovery potential at A-stage, while markedly reduces energy consumption at B-stage. Various configurations of A-B process with energy analysis are thus discussed. It appears highly possible to achieve an overall energy gain in WWTPs with A-B process as a core.

Country

Singapore

Related Organizations

Advanced Biotechnology Center
Italy
Nanyang Technological University
Singapore
Zhengzhou University
China (People's Republic of)
Zhengzhou University
China (People's Republic of)
Advanced Biotechnology Center
Italy

Keywords

690, Biological Oxygen Demand Analysis, Energy Consumption, :Engineering::Civil engineering [DRNTU], Wastewater, Article, Water Purification, Waste Water Management, DRNTU::Engineering::Civil engineering, Anaerobiosis, Energy Metabolism, Water Microbiology

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	impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.	Top 1%