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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 발행연도
- 2016.1
- 수록면
- 337 - 345 (9page)
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초록· 키워드
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Increasing awareness of the energy–environment centers leads to the development of new technologies that have a direct impact on energy production and consumption during environmental remediation. Bioelectrochemical system (BES) is anticipated to be the emerging technology for the simultaneous removal/recovery of resources such as energy, nutrients, water, and heavy metals. Organic compounds inside the leachate are oxidized by micro-organisms which in turn lead to the production of energy and other value-added resources. Through the integration of membrane process such as forward osmosis in BES will help to recover the high-quality water for applications like agricultural. Recovery of metals is largely affected by uncertainty in concentration but still recovery of metal is achievable in leachate. Phosphorous and ammonia can be recovered through cathode reduction reactions driven by electricity generation. Low bioavailability of landfill leachate is one of the major challenges for BES which can be improved through proper pretreatment of landfill leachate. Another challenge of achieving the metal recovery from leachate is the low concentration of heavy metals. System scaling up remains as a great confront, especially for BES as energy production and consumption balance needs to be well understood. This review paper identified the key challenges, opportunities, and future recommendations for the recovery of resources from leachate using BES.
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참고문헌 (52)
참고문헌 신청
Alvarez, H. V. / 2004 / Membrane bioreactors vs. conventional biological treatment of landfill leachate : A brief review / Journal of Chemical Technology and Biotechnology 79:1043~1049
Aziz, S. Q. / 2010 / Leachate characterization in semi-aerobic and anaerobic sanitary landfills : A comparative study / Journal of Environmental Management 91:2608~2614
Bashir, M. J. K. / 2013 / An overview of electro-oxidation processes performance in stabilized landfill leachate treatment / Desalination and Water Treatment 51:2170~2184
Bashir, M. J. K. / 2015 / The competency of various applied strategies in treating tropical municipal landfill leachate / Desalination and Water Treatment 54:2382~2395
Cecen, F. / 2003 / Effect of powdered activated carbon addition on sludge dewaterability and substrate removal in landfill leachate treatment / Advances in Environmental Research 7:707~713
Aziz, S. Q. / 2010 / Leachate characterization in semi-aerobic and anaerobic sanitary landfills : A comparative study / Journal of Environmental Management 91:2608~2614
Bashir, M. J. K. / 2013 / An overview of electro-oxidation processes performance in stabilized landfill leachate treatment / Desalination and Water Treatment 51:2170~2184
Bashir, M. J. K. / 2015 / The competency of various applied strategies in treating tropical municipal landfill leachate / Desalination and Water Treatment 54:2382~2395
Cecen, F. / 2003 / Effect of powdered activated carbon addition on sludge dewaterability and substrate removal in landfill leachate treatment / Advances in Environmental Research 7:707~713
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