Large Scale Preparation of Polyethylene Based Ion Exchange Membranes and Their Application for Water Desalination

Summary Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross‐linke...

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Published in	Macromolecular symposia. Vol. 357; no. 1; pp. 194 - 199
Main Authors	Kulshrestha, Vaibhav, Chatterjee, Uma, Sharma, Saroj, Makwana, B. S., Maru, P. D.
Format	Journal Article
Language	English
Published	Weinheim Blackwell Publishing Ltd 01.11.2015 Wiley Subscription Services, Inc
Subjects	Brackish water desalination Crosslinking Desalination electro-dialysis Electrodialysis Exchange ion exchange membrane Ion exchangers Membranes Polyethylene Polyethylenes water desalination
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Abstract	Summary Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross‐linked PE/polystyrene interpolymer film and the anion exchange membrane (AEM) has been prepared from cross‐linked PE/polypmethylstyrene based interpolymer film by suitable functionalization reaction. Both the prepared CEM and AEM exhibited 1.5–1.30 meq g−1 ion‐exchange capacity, 2.85–1.15 m Scm−1 ionic conductivity and 0.92–0.93 transport number respectively. The prepared AEM and CEM were used for brackish water desalination containing total solid content (2000–3000 mg/L) by electrodialysis in a unit of size 200 cm2 using 30 pieces of each kind of membrane under single pass mode with final flow of purified water 7.2–8.4 L/h. The power consumption (W) and current efficiency (CE %) of the desalination processes were 0.789–0.796 kWh/kg and 87–86% respectively. On the contrary the W and CE% values were 1.125–1.07 kWh/kg and 61–64% for commercial IONSEP membranes during water desalination under similar experimental condition. These values indicate the better performance of developed membranes and established the validation of the process in large scale.
AbstractList	Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross-linked PE/polystyrene interpolymer film and the anion exchange membrane (AEM) has been prepared from cross-linked PE/polypmethylstyrene based interpolymer film by suitable functionalization reaction. Both the prepared CEM and AEM exhibited 1.5-1.30meqg super(-1) ion-exchange capacity, 2.85-1.15mScm super(-1) ionic conductivity and 0.92-0.93 transport number respectively. The prepared AEM and CEM were used for brackish water desalination containing total solid content (2000-3000mg/L) by electrodialysis in a unit of size 200cm super(2) using 30 pieces of each kind of membrane under single pass mode with final flow of purified water 7.2-8.4 L/h. The power consumption (W) and current efficiency (CE %) of the desalination processes were 0.789-0.796kWh/kg and 87-86% respectively. On the contrary the W and CE% values were 1.125-1.07kWh/kg and 61-64% for commercial IONSEP membranes during water desalination under similar experimental condition. These values indicate the better performance of developed membranes and established the validation of the process in large scale. Summary Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross-linked PE/polystyrene interpolymer film and the anion exchange membrane (AEM) has been prepared from cross-linked PE/polypmethylstyrene based interpolymer film by suitable functionalization reaction. Both the prepared CEM and AEM exhibited 1.5-1.30meqg-1 ion-exchange capacity, 2.85-1.15mScm-1 ionic conductivity and 0.92-0.93 transport number respectively. The prepared AEM and CEM were used for brackish water desalination containing total solid content (2000-3000mg/L) by electrodialysis in a unit of size 200cm2 using 30 pieces of each kind of membrane under single pass mode with final flow of purified water 7.2-8.4 L/h. The power consumption (W) and current efficiency (CE %) of the desalination processes were 0.789-0.796kWh/kg and 87-86% respectively. On the contrary the W and CE% values were 1.125-1.07kWh/kg and 61-64% for commercial IONSEP membranes during water desalination under similar experimental condition. These values indicate the better performance of developed membranes and established the validation of the process in large scale. Summary Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross‐linked PE/polystyrene interpolymer film and the anion exchange membrane (AEM) has been prepared from cross‐linked PE/polypmethylstyrene based interpolymer film by suitable functionalization reaction. Both the prepared CEM and AEM exhibited 1.5–1.30 meq g−1 ion‐exchange capacity, 2.85–1.15 m Scm−1 ionic conductivity and 0.92–0.93 transport number respectively. The prepared AEM and CEM were used for brackish water desalination containing total solid content (2000–3000 mg/L) by electrodialysis in a unit of size 200 cm2 using 30 pieces of each kind of membrane under single pass mode with final flow of purified water 7.2–8.4 L/h. The power consumption (W) and current efficiency (CE %) of the desalination processes were 0.789–0.796 kWh/kg and 87–86% respectively. On the contrary the W and CE% values were 1.125–1.07 kWh/kg and 61–64% for commercial IONSEP membranes during water desalination under similar experimental condition. These values indicate the better performance of developed membranes and established the validation of the process in large scale. Summary Here in we are reporting the large scale preparation and characterization of polyethylene (PE) based interpolymer ion exchange membranes (IEMs) and their performance evaluation during water desalination by electrodialysis. The cation exchange membrane (CEM) has been prepared from cross‐linked PE/polystyrene interpolymer film and the anion exchange membrane (AEM) has been prepared from cross‐linked PE/poly p methylstyrene based interpolymer film by suitable functionalization reaction. Both the prepared CEM and AEM exhibited 1.5–1.30 meq g −1 ion‐exchange capacity, 2.85–1.15 m Scm −1 ionic conductivity and 0.92–0.93 transport number respectively. The prepared AEM and CEM were used for brackish water desalination containing total solid content (2000–3000 mg/L) by electrodialysis in a unit of size 200 cm 2 using 30 pieces of each kind of membrane under single pass mode with final flow of purified water 7.2–8.4 L/h. The power consumption (W) and current efficiency (CE %) of the desalination processes were 0.789–0.796 kWh/kg and 87–86% respectively. On the contrary the W and CE% values were 1.125–1.07 kWh/kg and 61–64% for commercial IONSEP membranes during water desalination under similar experimental condition. These values indicate the better performance of developed membranes and established the validation of the process in large scale.
Author	Chatterjee, Uma Makwana, B. S. Maru, P. D. Sharma, Saroj Kulshrestha, Vaibhav
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Cites_doi	10.1016/S0376-7388(02)00599-9 10.1021/ma901538c 10.1039/c3ta10355b 10.1002/app.27226 10.1002/app.29471 10.1016/S0376-7388(01)00620-2 10.1002/app.1982.070270539 10.1016/j.memsci.2005.04.019 10.1016/j.memsci.2009.01.038 10.1021/cr020711a 10.1039/c3ta00342f 10.1016/S0079-6700(00)00032-0 10.1016/S0376-7388(03)00045-0 10.1039/C4RA02216E 10.1080/01496395.2014.973525 10.1351/pac198658121613 10.1016/j.memsci.2003.09.019 10.1002/app.28166 10.1016/j.memsci.2005.05.002 10.1021/ma902430y 10.1016/j.memsci.2014.02.011 10.1039/c4ta00508b
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SubjectTerms	Brackish water desalination Crosslinking Desalination electro-dialysis Electrodialysis Exchange ion exchange membrane Ion exchangers Membranes Polyethylene Polyethylenes water desalination
Title	Large Scale Preparation of Polyethylene Based Ion Exchange Membranes and Their Application for Water Desalination
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