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지식나눔

지식나눔

미생물 연료전지 학사 논문

2006-10-02 org.kosen.entty.User@44e684b5 세화(shihua123)
  • 2
안녕하세요~ 미생물연료전지에 관한 최신review paper를 부탁드립니다. 미리 감사드립니다.
  • air-brething
  • microbiol
  • fule cell
지식의 출발은 질문, 모든 지식의 완성은 답변! 
각 분야 한인연구자와 현업 전문가분들의 답변을 기다립니다.
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    김홍일님의 답변

    2006-10-04
    • 0
    >안녕하세요~ >미생물연료전지에 관한 최신review paper를 부탁드립니다. >미리 감사드립니다. 전자정보센타(Electronics Information Center)에 가셔서 연료전지에 관한 최신 정보를 찾아보십시오
    답변수정
    >안녕하세요~ >미생물연료전지에 관한 최신review paper를 부탁드립니다. >미리 감사드립니다. 전자정보센타(Electronics Information Center)에 가셔서 연료전지에 관한 최신 정보를 찾아보십시오
    등록된 댓글이 없습니다.
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    홍동호님의 답변

    2006-10-04
    • 0
    >안녕하세요~ >미생물연료전지에 관한 최신review paper를 부탁드립니다. >미리 감사드립니다. Curr Opin Biotechnol. 2006 Jun;17(3):327-32. Epub 2006 May 5. Microbial fuel cells: novel microbial physiologies and engineering approaches. Lovley DR. Department of Microbiology, University of Massachusetts, Amherst, 01003, USA. dlovley@microbio.umass.edu The possibility of generating electricity with microbial fuel cells has been recognized for some time, but practical applications have been slow to develop. The recent development of a microbial fuel cell that can harvest electricity from the organic matter stored in marine sediments has demonstrated the feasibility of producing useful amounts of electricity in remote environments. Further study of these systems has led to the discovery of microorganisms that conserve energy to support their growth by completely oxidizing organic compounds to carbon dioxide with direct electron transfer to electrodes. This suggests that self-sustaining microbial fuel cells that can effectively convert a diverse range of waste organic matter or renewable biomass to electricity are feasible. Significant progress has recently been made to increase the power output of systems designed to convert organic wastes to electricity, but substantial additional optimization will be required for large-scale electricity production.
    답변수정
    >안녕하세요~ >미생물연료전지에 관한 최신review paper를 부탁드립니다. >미리 감사드립니다. Curr Opin Biotechnol. 2006 Jun;17(3):327-32. Epub 2006 May 5. Microbial fuel cells: novel microbial physiologies and engineering approaches. Lovley DR. Department of Microbiology, University of Massachusetts, Amherst, 01003, USA. dlovley@microbio.umass.edu The possibility of generating electricity with microbial fuel cells has been recognized for some time, but practical applications have been slow to develop. The recent development of a microbial fuel cell that can harvest electricity from the organic matter stored in marine sediments has demonstrated the feasibility of producing useful amounts of electricity in remote environments. Further study of these systems has led to the discovery of microorganisms that conserve energy to support their growth by completely oxidizing organic compounds to carbon dioxide with direct electron transfer to electrodes. This suggests that self-sustaining microbial fuel cells that can effectively convert a diverse range of waste organic matter or renewable biomass to electricity are feasible. Significant progress has recently been made to increase the power output of systems designed to convert organic wastes to electricity, but substantial additional optimization will be required for large-scale electricity production.
    등록된 댓글이 없습니다.
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