Novel Membrane Technologies for Traditional Industrial Processes
Li, Pei
Novel Membrane Technologies for Traditional Industrial Processes - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (196 p.)
Open Access
Through reading this book, you will obtain information on: (1) the main problems in air separation and natural gas treatment by membrane separation and how to solve them; (2) processes involving membranes and new membrane materials for the more economical utilization of bio-resources; (3) energy selection and membrane development for more expedient and stable harnessing of the natural osmosis phenomenon; (4) many excellent contributions about catalytic membrane bioreactors; (5) how to fine-tune the arrangement of aquaporins (i.e., proteins identified in biological cells) to achieve superior water treatment efficiency.
Creative Commons
English
books978-3-03897-791-9 9783038977919 9783038977902
10.3390/books978-3-03897-791-9 doi
n/a membrane draw solutes regeneration steam explosion wastewater treatment lignin hydrogen supported ionic liquid membranes chlorine resistance photocatalytic membrane thin-film composite photocatalytic membrane reactors single-sites pore modification polyimide separation dynamic membrane filtration microalgae structural stability energy fine chemistry pre-reforming costs fractionation carbon dioxide glucose alkanes immobilization biomimetic aquaporins nanofiltration interfacial polymerization cell disruption gas separation steam reforming plasticization xylose forward osmosis zeolite membrane membrane separation dopamine
Novel Membrane Technologies for Traditional Industrial Processes - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (196 p.)
Open Access
Through reading this book, you will obtain information on: (1) the main problems in air separation and natural gas treatment by membrane separation and how to solve them; (2) processes involving membranes and new membrane materials for the more economical utilization of bio-resources; (3) energy selection and membrane development for more expedient and stable harnessing of the natural osmosis phenomenon; (4) many excellent contributions about catalytic membrane bioreactors; (5) how to fine-tune the arrangement of aquaporins (i.e., proteins identified in biological cells) to achieve superior water treatment efficiency.
Creative Commons
English
books978-3-03897-791-9 9783038977919 9783038977902
10.3390/books978-3-03897-791-9 doi
n/a membrane draw solutes regeneration steam explosion wastewater treatment lignin hydrogen supported ionic liquid membranes chlorine resistance photocatalytic membrane thin-film composite photocatalytic membrane reactors single-sites pore modification polyimide separation dynamic membrane filtration microalgae structural stability energy fine chemistry pre-reforming costs fractionation carbon dioxide glucose alkanes immobilization biomimetic aquaporins nanofiltration interfacial polymerization cell disruption gas separation steam reforming plasticization xylose forward osmosis zeolite membrane membrane separation dopamine