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200220s2020 ne o 001 0 eng d |
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|a0128174943 (electronic bk.)
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020 |
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|a9780128174944 (electronic bk.)
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020 |
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|a9780128174937
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020 |
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|a0128174935
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040 |
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|aUKAHL|beng|epn|cUKAHL|dOPELS|dOCLCF|dYDX|dUKMGB|dEBLCP|dOCLCO|dN$T
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041 |
0
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|aeng
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050 |
4
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|aTD755
|
082 |
04
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|a628.1|223
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095 |
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|aNF|tLCC|p|dTD755|e|c
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245 |
00
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|aIntegrated microbial fuel cells for wastewater treatment|h[electronic resource] /|c[edited by] Rouzbeh Abbassi, Asheesh Kumar Yadav, Faisal Khan, Vikram Garaniya.
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260 |
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|aAmsterdam :|bButterworth-Heinemann,|c2020.
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300 |
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|a1 online resource
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500 |
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|aIncludes index.
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505 |
0
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|aFront Cover -- Integrated Microbial Fuel Cells for Wastewater Treatment -- Copyright Page -- Contents -- List of contributors -- 1 Introduction -- 1 Introduction to microbial fuel cells: challenges and opportunities -- 1.1 Introduction -- 1.2 Brief history of microbial fuel cells to bioelectrochemical systems -- 1.3 Principles and challenges of microbial fuel cells -- 1.4 Future of microbial fuel cells -- 1.5 Conclusion -- Acknowledgment -- References -- 2 Microbial fuel cell-integrated wastewater treatment systems -- 2.1 Introduction -- 2.1.1 Sediment microbial fuel cells
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505 |
8
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|a2.1.2 Constructed wetlands-microbial fuel cells -- 2.1.3 MBR-microbial fuel cells -- 2.1.4 Desalination cell-microbial fuel cells -- 2.1.5 Other processes -- 2.2 Conclusion -- References -- 2 Application to Industrial Wastewater treatment -- 3 Removal of heavy metals using bioelectrochemical systems -- 3.1 Introduction -- 3.2 Bioelectrochemical systems for heavy metal removal -- 3.2.1 Concept and principle -- 3.2.2 Reduction of heavy metals at the cathode of bioelectrochemical systems -- 3.3 Electrode materials used for heavy metal removal in bioelectrochemical systems
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505 |
8
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|a3.4 Conventional technologies versus bioelectrochemical systems-based technology for the removal of heavy metals -- 3.5 Conclusion -- References -- Further reading -- 4 Textile wastewater treatment using microbial fuel cell and coupled technology: a green approach for detoxification and bi... -- 4.1 Microbial fuel cell and its application in the treatment -- 4.1.1 Mechanisms involved in dye breakdown -- 4.1.2 Dye removal and current generation in microbial fuel cell -- 4.1.3 Dye removal and total COD removal -- 4.2 Enhancement of microbial fuel cell performance
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505 |
8
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|a4.2.1 Bioanode-based enhancement of dye treatment -- 4.2.2 Biocathode-based enhancement of dye treatment -- 4.2.3 Membrane-based enhancement of dye treatment -- 4.2.4 Effect of the shuttle on dye removal and electricity generation -- 4.3 Microbial diversity involved in the breakdown of dye in microbial fuel cell -- 4.4 Toxicity of treated dye wastewater -- 4.5 Microbial fuel cell-coupled techniques for textile wastewater treatment -- 4.5.1 Microbial fuel cell-integrated constructed wetlands -- 4.5.2 Microbial fuel cell couple aerobic biocontact oxidation reactor system
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505 |
8
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|a4.5.3 Bioelectro-Fenton technology-microbial fuel cell -- 4.5.4 Electrolysis cell combined with a microbial fuel cell (MFC-MEC) -- 4.6 Research gap -- Acknowledgments -- References -- Further reading -- 5 Agro-industrial wastewater treatment in microbial fuel cells -- 5.1 Introduction -- 5.2 Use of agro-industrial wastewater as substrate for microbial fuel cells -- 5.3 Dairy industry wastewater -- 5.4 Brewery and winery industry -- 5.4.1 Brewery wastewater -- 5.4.2 Winery wastewater -- 5.5 Agro-industrial wastewaters and by-products -- 5.5.1 Palm oil industry wastewater
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650 |
0
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|aSewage|xPurification|xBiological treatment.
|
650 |
0
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|aMicrobial fuel cells.
|
650 |
7
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|aMicrobial fuel cells.|2fast|0(OCoLC)fst01746361
|
650 |
7
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|aSewage|xPurification|xBiological treatment.|2fast|0(OCoLC)fst01113768
|
655 |
4
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|aElectronic books.
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700 |
1
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|aAbbassi, Rouzbeh.
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700 |
1
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|aYadav, Asheesh Kumar.
|
700 |
1
|
|aKhan, Faisal.
|
700 |
1
|
|aGaraniya, Vikram.
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856 |
40
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|uhttps://www.sciencedirect.com/science/book/9780128174937
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