• |本期目錄/Table of Contents|

    [1]吳義誠,歐陽云祥,許榮煥,等.納米Al2O3介導的固定化小球藻燃料電池產電性能分析[J].廈門理工學院學報,2020,(5):16-20.[doi:1019697/jcnki16734432202005003]
     WU Yicheng,OUYANG Yunxiang,XU Ronghuan,et al.Nano Al2O3Alginate Jointly Immobilized Chlorella vulgaris inCathode Enhanced Electricity Generation in Microbial Fuel Cells[J].Journal of JOURNAL OF XIAMEN,2020,(5):16-20.[doi:1019697/jcnki16734432202005003]
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    納米Al2O3介導的固定化小球藻燃料電池產電性能分析(PDF/HTML)
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    《廈門理工學院學報》[ISSN:1673-4432/CN:35-1289/Z]

    卷:
    期數:
    2020年第5期
    頁碼:
    16-20
    欄目:
    電氣工程與自動化
    出版日期:
    2020-10-30

    文章信息/Info

    Title:
    Nano Al2O3Alginate Jointly Immobilized Chlorella vulgaris in Cathode Enhanced Electricity Generation in Microbial Fuel Cells
    文章編號:
    16734432(2020)05001605
    作者:
    吳義誠歐陽云祥許榮煥蘇曉東代智能傅海燕
    廈門理工學院環境科學與工程學院,福建 廈門 361024
    Author(s):
    WU YichengOUYANG YunxiangXU RonghuanSU XiaodongDAI ZhinengFU Haiyan
    School of Environment Science & Engineering,Xiamen University of Technology,Xiamen 361024,China
    關鍵詞:
    微生物燃料電池小球藻產電性能納米Al2O3海藻酸鈉聯合固定化廢水處理
    Keywords:
    microbial fuel cellsChlorella vulgariselectricity generation performancenano Al2O3alginate joint immobilizationwastewater treatment
    分類號:
    TM919X7031
    DOI:
    1019697/jcnki16734432202005003
    文獻標志碼:
    A
    摘要:
    采用納米Al2O3海藻酸鈉聯合固定化制備小球藻膠球,并應用于微生物燃料電池陰極,以提供電子受體,考察電池的產電性能。研究結果表明:加入納米Al2O3能提高海藻酸鈉固定化小球藻膠球的比表面積,使固定化小球藻陰極MFCs輸出電壓由0113 V提高到0173 V,且電池的輸出電壓隨著膠球粒徑的減小和加入量的增加而提高,光照可降低MFCs內阻,提高產電性能。
    Abstract:
    The present research investigated the performance of microbial fuel cells with nano Al2O3alginate joint immobilized Chlorella vulgaris as cathodic microorganism.The results show that the specific surface area of sodium alginate immobilized C. vulgaris bead increases with added nano Al2O3 so that the stabilized voltage outputs rise to 0.173 V in microbial fuel cells with nano Al2O3alginate joint immobilized C. vulgaris from 0.113 V of the alginate immobilized C.vulgaris,nano Al2O3alginate joint immobilized C.vulgaris generates higher voltage with smaller bead diameter and more beads,and the internal resistance decreases to improve the electricity generation performance under illumination.

    參考文獻/References:

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    備注/Memo

    備注/Memo:
    收稿日期:20200526修回日期:20200804 基金項目:大學生創新創業訓練計劃項目(201911062066);福建省自然科學基金項目(2019J01848) 通信作者:吳義誠,男,副教授,博士,研究方向為污染治理技術,Email:ycwu@xmuteducn。
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