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|a 1394973727
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|a 9780323951661
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|a TP159.M4
|b D86 2023
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|a 660.28424
|2 23/eng/20231115
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|a Dumee, Ludovic Francis.
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|a Green Membrane Technologies Towards Environmental Sustainability.
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|a Amsterdam :
|b Elsevier,
|c 2023.
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|a 1 online resource (647 p.)
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|a text
|b txt
|2 rdacontent
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|a Front Cover -- Green Membrane Technologies towards Environmental Sustainability -- Copyright Page -- Contents -- List of contributors -- 1 An introduction to green membrane technology -- 1.1 Introduction -- 1.2 Green membrane technology -- 1.2.1 Green membranes -- 1.2.2 Green membrane processes -- 1.3 Outlook of this book -- References -- 2 Green solvents for membrane fabrication -- 2.1 Introduction: role of the solvent in membrane fabrication -- 2.2 Solvent and polymer dissolution behavior in the membrane preparation -- 2.2.1 Predicting solubilization capability
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|a 2.4.2.3 Organic carbonates: dimethyl carbonate, propylene carbonates, 1,2- butylene carbonate -- 2.4.2.4 Lactic acid derivatives: methyl lactate, ethyl lactate, and N,N-dimethyl lactamide -- 2.4.2.5 Green solvents mixtures: ionic liquids and deep eutectic solvents -- 2.5 Toward a totally green membrane preparation -- 2.6 Conclusions -- References -- 3 3D printing in membrane technology -- 3.1 Introduction -- 3.2 Overview of 3D printing and its application in water technologies -- 3.2.1 3D printing overview -- 3.2.2 3D printing techniques -- 3.3 3D printing in feed spacers development
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|a 3.4 3D printing in membrane development -- 3.4.1 3D printing as a promising technique -- 3.4.1.1 Polymeric membranes -- 3.4.1.2 Ceramic membranes -- 3.5 3D printing in membrane modules and other components -- 3.6 Future perspectives -- 3.7 Conclusions -- References -- 4 Recycled materials for membrane fabrication -- 4.1 Introduction -- 4.2 Recycled materials for membrane fabrication -- 4.2.1 Recycled organic materials -- 4.2.2 Recycled inorganic material -- 4.2.2.1 Coal fly ash -- 4.2.2.2 Animal bones waste -- 4.2.2.3 Rice husk ash -- 4.2.2.4 Sugarcane bagasse ash
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|a 4.3 Conclusions and future trends -- References -- 5 Exploring biomimetic membranes: applications and challenges -- 5.1 Introduction -- 5.2 Biomimetic membranes -- 5.3 Advantages of BMMs -- 5.4 Different types of biomimetic structures -- 5.5 Aquaporins -- 5.6 Emerging novel biomimetic membranes -- 5.7 Fabrication of biomimetic membranes -- 5.7.1 Vesicle fusion -- 5.7.2 Electrostatic layer-by-layer assembly -- 5.7.3 Pressure-assisted vesicle adsorption -- 5.7.4 Chemical cross-linking -- 5.7.5 Electrokinetic immobilization -- 5.7.6 Interfacial polymerization
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|a 5.7.7 Lamellar block copolymer-based biomimetic membrane
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|a Membranes (Technology)
|x Environmental aspects.
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|a Sadrzadeh, Mohtada.
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|a Shirazi, Mohammad Mahdi A.
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|i Print version:
|a Dumee, Ludovic Francis
|t Green Membrane Technology Towards Environmental Sustainability
|d San Diego : Elsevier,c2023
|z 9780323951654
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| 856 |
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|u https://sciencedirect.uam.elogim.com/science/book/9780323951654
|z Texto completo
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|6 505-00/(S
|a 2.2.1.1 Hansen solubility parameters and Hildebrand parameter -- 2.2.2 HSPs distance (Ra) and Hansen sphere -- 2.2.3 Relative energy difference -- 2.3 Traditional solvents in membrane preparation -- 2.4 The advent of green solvents -- 2.4.1 Green chemistry metrics and profile of green solvent for membrane preparation -- 2.4.2 Types of green solvents and their use in membrane preparation, toxicological profile, and sources -- 2.4.2.1 Cellulose and sugar-based solvents: dimethyl isosorbide, Cyrene, γ-valerolactone -- 2.4.2.2 Nonionic synthetic organic solvent: Rhodiasolv PolarClean
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