An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater

An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater

In the research, the performance characteristics of Reverse Osmosis (RO) Spiral Wound (SW) membrane are evaluated. The effects of feed water concentration, temperature, pressure and flow rate on the performance of this membrane are investigated. The product recovery (<I>) of SW membrane is fou...

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Main Authors: M.N.A. Hawlader Hawlader, J.C. Ho Ho, and, K.T. Chua
Format: Article
Language:English
Published: Universitas Gadjah Mada 2017-11-01
Series:ASEAN Journal on Science and Technology for Development
Online Access:http://www.ajstd.org/index.php/ajstd/article/view/196
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spelling doaj-030c83e03e0147798bcf10ea4ee946192020-11-24T23:48:08ZengUniversitas Gadjah MadaASEAN Journal on Science and Technology for Development0217-54602224-90282017-11-01181354410.29037/ajstd.196191An experiment with spiral wound reverse osmosis membranes for the Desalination of seawaterM.N.A. Hawlader Hawlader,0J.C. Ho Ho, andK.T. ChuaDepartment of Mechanical Engineering National University of SingaporeIn the research, the performance characteristics of Reverse Osmosis (RO) Spiral Wound (SW) membrane are evaluated. The effects of feed water concentration, temperature, pressure and flow rate on the performance of this membrane are investigated. The product recovery (<I>) of SW membrane is found to increase with feed water temperature and pressure, but decrease with increasing feed water concentration and flow rate. Salt passage (SP) increases with feed water temperature and concentration, but decreases with increasing feed pressure and flow rate. Under the tested feed water conditions, <I> of SW varies from 6% - 18% and permeate salinity is approximately 130ppm. In addition, validity of the Complete Mixing Model is verified and successfully extended to the derivation of water and salt transport parameters of SW membrane. Plots of I/SR' versus l/Jw display linear relationships, as predicted in the model.http://www.ajstd.org/index.php/ajstd/article/view/196
collection DOAJ
language English
format Article
sources DOAJ
author M.N.A. Hawlader Hawlader,
J.C. Ho Ho, and
K.T. Chua
spellingShingle M.N.A. Hawlader Hawlader,
J.C. Ho Ho, and
K.T. Chua
An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
ASEAN Journal on Science and Technology for Development
author_facet M.N.A. Hawlader Hawlader,
J.C. Ho Ho, and
K.T. Chua
author_sort M.N.A. Hawlader Hawlader,
title An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
title_short An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
title_full An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
title_fullStr An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
title_full_unstemmed An experiment with spiral wound reverse osmosis membranes for the Desalination of seawater
title_sort experiment with spiral wound reverse osmosis membranes for the desalination of seawater
publisher Universitas Gadjah Mada
series ASEAN Journal on Science and Technology for Development
issn 0217-5460
2224-9028
publishDate 2017-11-01
description In the research, the performance characteristics of Reverse Osmosis (RO) Spiral Wound (SW) membrane are evaluated. The effects of feed water concentration, temperature, pressure and flow rate on the performance of this membrane are investigated. The product recovery (<I>) of SW membrane is found to increase with feed water temperature and pressure, but decrease with increasing feed water concentration and flow rate. Salt passage (SP) increases with feed water temperature and concentration, but decreases with increasing feed pressure and flow rate. Under the tested feed water conditions, <I> of SW varies from 6% - 18% and permeate salinity is approximately 130ppm. In addition, validity of the Complete Mixing Model is verified and successfully extended to the derivation of water and salt transport parameters of SW membrane. Plots of I/SR' versus l/Jw display linear relationships, as predicted in the model.
url http://www.ajstd.org/index.php/ajstd/article/view/196
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