Impacts of trace element supplementation on the performance of anaerobic digestion process: A critical review
2017-04-04
org.kosen.entty.User@70f6a673
김형건(khgun)
첨부파일
행사&학회소개
1. Introduction
2. Roles of trace elements in anaerobic digestion
2.1. Trace element composition of methanogens
2.2. Metalloenzymes in methanogenesis
2.3. Trace elements in hydrolysis, acidogenesis, and acetogenesis
3. Impacts of single trace element supplementation on anaerobic digestion performance
3.1. Iron (Fe)
3.2. Nickel (Ni)
3.3. Cobalt (Co)
3.4. Influential factor that causes the impacts variation
4. Impacts of multiple trace elements supplementation on anaerobic digestion performance
5. Crucial consideration: Trace element bioavailability
5.1. Methodology to determine trace element bioavailability
5.2. Trace elements bioavailability of anaerobic digestion feedstock
5.3. Chelating agents to increase trace element bioavailability
6. Research outlook
7. Conclusions
2. Roles of trace elements in anaerobic digestion
2.1. Trace element composition of methanogens
2.2. Metalloenzymes in methanogenesis
2.3. Trace elements in hydrolysis, acidogenesis, and acetogenesis
3. Impacts of single trace element supplementation on anaerobic digestion performance
3.1. Iron (Fe)
3.2. Nickel (Ni)
3.3. Cobalt (Co)
3.4. Influential factor that causes the impacts variation
4. Impacts of multiple trace elements supplementation on anaerobic digestion performance
5. Crucial consideration: Trace element bioavailability
5.1. Methodology to determine trace element bioavailability
5.2. Trace elements bioavailability of anaerobic digestion feedstock
5.3. Chelating agents to increase trace element bioavailability
6. Research outlook
7. Conclusions
보고서작성신청
본 논문은 미량 원소에 주입에 따른 혐기성 소화 효율에 대한 리뷰 논문이다. 철, 니켈, 코발트 등의 미량 원소에 대해 검토 하였다.