Co-metabolism kinetics and electrogenesis change during cyanide degradation in a microbial fuel cell | |
Wu, H; Feng, YL; Li, HR; Wang, HJ; Wang, JJ; Wu, Hao; Feng, Ya-li; Li, Hao-ran; Wang, Hong-jun; Wang, Jun-jie | |
刊名 | RSC ADVANCES
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2018 | |
卷号 | 8期号:70页码:40407 |
关键词 | GROWTH WATER BIODEGRADATION MICROORGANISMS COMETABOLISM CULTURE PHENOL SYSTEM MODEL |
ISSN号 | 2046-2069 |
DOI | 10.1039/c8ra08775j |
文献子类 | Article |
英文摘要 | The co-metabolic degradation kinetics, microbial growth kinetics and electricity generation capacity were researched of strain MC-1 in a MFC (microbial fuel cell). The results show that Haldane and Aiba models suit the growth kinetics of a single substrate (sodium acetate) MFC with 0.995 correlation coefficient. Moreover, the Haldane model was appropriate to describe the growth kinetics of a single substrate (sodium cyanide) MFC with 0.986 correlation coefficient. The growth kinetics of a mixed substrate MFC can be explained well by the SKIP model with correlation coefficient 0.995. Second order and three-half order models were found to suitably describe the cyanide degradation process. The maximum output voltage of MFC and the cyanide degradation efficiency were significantly enhanced by using sodium acetate and cyanide as mixed substrates. Also, the trend of electricity production is related to the growth cycle of microorganisms in a MFC. |
WOS记录号 | WOS:000452778800057 |
资助机构 | Deep-sea Biological Resources Program [DY135-B2-15] |
内容类型 | 期刊论文 |
源URL | [http://ir.ipe.ac.cn/handle/122111/26822] ![]() |
专题 | 中国科学院过程工程研究所 |
推荐引用方式 GB/T 7714 | Wu, H,Feng, YL,Li, HR,et al. Co-metabolism kinetics and electrogenesis change during cyanide degradation in a microbial fuel cell[J]. RSC ADVANCES,2018,8(70):40407, 40416. |
APA | Wu, H.,Feng, YL.,Li, HR.,Wang, HJ.,Wang, JJ.,...&Wang, Jun-jie.(2018).Co-metabolism kinetics and electrogenesis change during cyanide degradation in a microbial fuel cell.RSC ADVANCES,8(70),40407. |
MLA | Wu, H,et al."Co-metabolism kinetics and electrogenesis change during cyanide degradation in a microbial fuel cell".RSC ADVANCES 8.70(2018):40407. |
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