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Editors-in-Chief
    Prof. Enrico Drioli (European Ed.)
    Dept. of Chemical Eng. & Materials
    University of Calabria, Italy
    Dr. Youngchul Choi (American Ed.)
    Director, Water Technology
    RTI International, USA
    Prof. Jihyang Kweon (Asia-Pacific Ed.)
    Dept. of Environ. Eng.
    Konkuk University, Korea

Managing Editor
    Prof. Chang-Koon Choi
    Dept. of Civil & Environmental Engineering
    Korea Advanced Institute of Science & Technology,
    Korea

 SCOPUS
 Impact factor : 0.927(2019)
ISSN: 2005-8624(Print), ISSN: 2092-7037(Online)
Vol.11 (6 issues) for 2020, Bimonthly
 
This journal is jointly published with Korea Society on Water Environment(KSWE).
Aims and Scope

The Membrane and Water Treatment(MWT), An International Journal, aims at opening an access to the valuable source of technical information and providing an excellent publication channel for the global community of researchers in Membrane and Water Treatment related area. Specific emphasis of the journal may include but not limited to; the engineering and scientific aspects of understanding the basic mechanisms and applying membranes for water and waste water treatment, such as transport phenomena, surface characteristics, fouling, scaling, desalination, membrane bioreactors, water reuse, and system optimization.
Editorial Board
 
Dr. SP Agashichev
ADWEA-Research Center
Nat Energy Water Res Cntr, UAE


Prof. AL Ahmad
School of Chem Eng

Dr. A Ahsan
Dept of Civil Eng
Univ Putra Malaysia, Malaysia


Dr. P Aimar
Genie of the Interf Divided Media
Genie Chem Lab of Toulouse, France

Prof. M Al-Anber
Dept of Environ Health
University of Hali, Saudi Arabia


Dr. MH Al-Beiruti
Cntr of Excellence in Desal Technol
King Abdulaziz City for Sci and Technol, Saudi Arabia

Dr. AE Al-Rawajfeh
EOSRC
Tafila Technical Univ, Jordan


Prof. H Arafat
Chem and Environ Eng
Water and Environmental Engineering, UAE

Prof. CP Borges
COPPE
Univ Federal do Rio de Janeiro, Brazil


Prof. WR Bowen
i-NewtonWales
Swansea, UK

Dr. A Cassano
Inst of Membr Technol
Univ of Calabria, Italy


Prof. CY Chang
Dept of Environ Eng Sci
Chia Nan Univ of Pharmacy Sci, China


Prof. Jinwoo Cho
Sejong University, Korea

Dr. Z Cui
State Key Lab. Materials-Oriented
Chem. Eng., College of Chemistry
and Chem. Eng.
Nanjing Tech Univ, China

Prof. N Drouiche
Div of Raw Mater and Crystal Growth
Res Cntr of Semicond Tech for Energy, Algeria


Dr. E Favre
French Nat Cntr for Sci Res
U of Lorraine, France

Prof. Kyung-Ik Gil
Seoul National University of Science and Technology, Korea

Prof. P Fievet
Equipe "Nanosciences, Capteurs, Membranes"
Inst UTINAM (UMR CNRS 6213), France


Prof. M Gryta
Inst of Chem Tech Environ Eng
W Pomeranian Univ of Tech, Poland


Dr. N Hankins
Dept of Engineering Sci
The Univ of Oxford, UK


Prof. Yongseok Hong
Deagu University, Korea
Prof. AF Ismail
Adv Membrane Tech Res Center
Universiti Teknologi Malaysia, Malaysia


Prof. W Jin
Chem Eng
Nanjing U of Technol, China

Prof. M Khayet
Dept of Applied Physics I
Univ Complutense of Madrid, Spain


Prof. KC Khulbe
Dept of Chemical Engineering
Univ of Ottawa, Canada


Prof. S Koter
Faculty of Chemistry
Nicolaus Copernicus Univ, Poland


Prof. I Koyuncu
Dept of Environ Eng
Istanbul Technical Univ, Turkey


Prof. Sung Pyo Kim
Korea University, Korea

Prof. P Le-Clech
Chemical Science and Eng
The Univ of New South Wales, Australia


Prof. B Liao
Dept of Chemical Eng
Lakehead Univ, Canada


Prof. F Macedonio
Faculty of Engineering
Univ of Calabria, Italy


Dr. H Matsuyama
Dept of Chem Sci Eng
Kobe U, Japan

Prof. R Molinari
Dept of Chem Eng and Mater
Univ of Calabria, Italy


Prof. CN Murthy
Dept Appl Chem
Maharaja Sayajirao U of Baroda, India

Prof. LD Nghiem
Sch Civil Min Environ Eng
Univ Wollongong, Australia


Prof. Z Palaty
Dept of Chemical Eng
Univ of Pardubice, Czech Republic


Prof. HB Park
Energy Eng
Hanyang U, Korea

Prof. A Pollice
Dept of Bari
Water Res Inst of the Nat Res Coun, Italy
Prof. AB Ribeiro
Dept of Sci and Environ Eng
New U of Lisbon, Portugal


Prof. A Schafer
Dept of Environ Eng
The Univ of Edinburgh, UK


Prof. HK Shon
Faculty of Eng
Univ of Technol, Sydeny, Australia


Prof. A Szymczyk
Inst of Chem Sci of Rennes
Univ of Rennes, France


Dr. Y Tanaka
IEM Research
Japan


Dr. L Tjing
Civil Environ Eng
U of Technol Sydney, Australia

Dr. KL Tung
Membr Filtration Lab
National Taiwan U, Taiwan

Prof. M Turek
Faculty of Chemistry
Silesian Univ of Technol, Poland


Prof. B Van der Bruggen
Dept of Chemical Eng
K.U. Leuven, Belgium


Prof. C Visvanathan
Sch of Environ Resour Develop
Asian Inst of Tech, Thailand


Prof. R Wang
Nanyang Environ Water Res Inst
Nanyang Technological U, Singapore

Prof. XD Wang
Lab of Alter Electr Power Syst Renew Energy Sour
North China Electric Power Univ, China


Prof. XL Wang
Chem Eng
Tsinghua U, China

Prof. Z Wang
Sch of Chem Eng and Tech
Tianjin Univ, China


Prof. TW Xu
Sch of Chem Mater Sci
Univ of Sci Tech of China, China


Prof. HM Yeh
Dept of Chemi and Mater Eng
Tamkang Univ, Taiwan


Prof. G Zhang
College of Environ Energy Eng
Beijing Univ of Technol, China






Guide to Authors (Last updated: Jan 16, 2020!)

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Sample Issues
Volume 3, Number 1, January 2012
  • Developments and future potentials of anaerobic membrane bioreactors (AnMBRs)
    Chettiyappan Visvanathan and Amila Abeynayaka
    Abstract; Full Text (1003K)

Abstract
The coupling of anaerobic biological process and membrane separation could provide excellent suspended solids removal and better biomass retention for wastewater treatment. This coupling improves the biological treatment process while allowing for the recovery of energy through biogas. This review gives a basic description of the anaerobic wastewater treatment process, summarizes the state of the art of anaerobic membrane bioreactors (AnMBRs), and describes the current research trends and needs for the development of AnMBRs. The research interest on AnMBR has grown over the conventional anaerobic processes such as upflow anaerobic sludge blanket (UASB). Studies on AnMBRs have developed different reactor configurations to enhance performances. The AnMBR performances have achieved comparable status to other high rate anaerobic reactors. AnMBR is highly suitable for application with thermophilic anaerobic process to enhance performances. Studies indicate that the applications of AnMBR are not only limited to the high strength industrial wastewater treatment, but also for the municipal wastewater treatment. In recent years, there is a significant progress in the membrane fouling studies, which is a major concern in AnMBR application.

Key Words
anaerobic membrane bioreactor; wastewater treatment; research development; membrane fouling; high rate; thermophilic process

Address
Environmental Engineering and Management Program, School of Environment, Resources and Development, Asian Institute of Technology, Thailand

  • New CPS-PPEES blend membranes for CaCl2 and NaCl rejection
    Chitrakar Hegde, Arun M Isloor, Mahesh Padaki, Ahmad Fauzi Ismail and Lau W.J
    Abstract; Full Text (2263K)

Abstract
Carboxylated polysulfone (CPS), poly (1,4-phenylene ether ethersulfone) (PPEES), membranes were prepared and used for the separation of NaCl and CaCl2, in efficient way with less energy consumption. In this work, nanofiltration and reverse osmosis membranes were employed to the salt rejection behavior of the different salt solutions. The influence of applied pressure (1-12 bar), on the membrane performance was assessed. In CM series of membranes, CM1 showed maximum of 97% water uptake and 36% water swelling, whereas, CM4 showed 75% water uptake and 28% water swelling. In RCM series, RCM1 showed 85% water uptake and 32% water swelling whereas, in RCM4 it was 68% for water uptake and 20% for water swelling. Conclusively reverse osmosis membranes gave better rejection whereas nanofiltration membrane showed enhanced flux. CM1 showed 58% of rejection with 12 L/(m2 h) flux and RCM1 showed 55% of rejection with 15 L/(m2 h) flux for 0.1 wt.% NaCl solution. Whereas, in 0.1 wt.% CaCl2 solution, membrane CM1 showed 78% of rejection with 12 L/(m2 h) flux and RCM1 showed 63% rejection with flux of 9 L/(m2 h).

Key Words
carboxylated polysulfone; NF; RO; synthesis; rejection

Address
Chitrakar Hegde : Department of Chemistry, Nitte Meenakshi Institute of Technology, Yelahanka, Bangalore-64, India Arun M Isloor, Mahesh Padaki : Membrane Technology Division, Department of Chemistry, National Institute of Technology-Karnataka, Surathkal, Mangalore 575 025, India Ahmad Fauzi Ismail and Lau W.J : Advanced Membrane Science & Technology Centre (AMTEC), Universiti Teknologi Malaysia, 81310 UTM, Skudai, Johor, Malaysia

  • A novel method of surface modification to polysulfone ultrafiltration membrane by preadsorption of citric acid or sodium bisulfite
    Xinyu Wei, Zhi Wang, Jixiao Wang and Shichang Wang
    Abstract; Full Text (836K)

Abstract
In membrane processes, various agents are used to enhance, protect, and recover membrane performance. Applying these agents in membrane modification could potentially be considered as a simple method to improve membrane performance without additional process. Citric acid (CI) and sodium bisulfite (SB) are two chemicals that are widely used in membrane feed water pretreatment and cleaning processes. In this work, preadsorptions of CI and SB were developed as simple methods for polysulfone ultrafiltration membrane modification. It was found that hydrogen bonding and Van Der Waals attraction could be responsible for the adsorptions of CI and SB onto membranes, respectively. After modification with CI or SB, the membrane surfaces became more hydrophilic. Membrane permeability improved when modified by SB while decreased a little when modified by CI. The modified membranes had an increase in PEG and BSA rejections and better antifouling properties with higher flux recovery ratios during filtration of a complex pharmaceutical wastewater. Moreover, membrane chlorine tolerance was elevated after modification with either agent, as shown by the mechanical property measurements.

Key Words
ultrafiltration; modification; citric acid; sodium bisulfite; membrane property

Address
Chemical Engineering Research Center, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, PR China

  • Effects of ring number and baffled-ring distances on ultrafiltration in the tubular membrane inserted concentrically with a ring rod
    Ho-Ming Yeh, Chii-Dong Ho and Cha-Hsin Li
    Abstract; Full Text (716K)

Abstract
The permeate flux declination along an ultrafilter membrane is due mainly to the concentrationpolarization resistance increment and the decline in transmembrane pressure. It was found in previous works that the concentration polarization resistance could be reduced in a ring-rod tubular membrane ultrafilter using the turbulent behavior. In the present study, the performance was further improved by properly and gradually decreasing the baffled-ring distance along the cross-flow channel coupled with properly adjusting the number of baffled rings. This theoretical analysis is based on the mass and momentum balances as well as the application of the resistance-in-series model. The correlation predictions are confirmed with the experimental results for dextran T500 aqueous solution ultrafiltration.

Key Words
ultrafiltration; tubular membrane; ring-rod insert; baffled-ring distance; proper ring number

Address
Energy and Opto-Electronic Materials Research Center,Department of Chemical and Materials Engineering, Tamkang University, Tamsui, Taipei County251, Taiwan

  • Continuous ion-exchange membrane electrodialysis of mother liquid discharged from a salt-manufacturing plant and transport of Cl- ions and SO4 2- ions
    Yoshinobu Tanaka, Hazime Uchino and Masayoshi Murakami
    Abstract; Full Text (910K)

Abstract
The permeate flux declination along an ultrafilter membrane is due mainly to the concentrationpolarization resistance increment and the decline in transmembrane pressure. It was found in previous works that the concentration polarization resistance could be reduced in a ring-rod tubular membrane ultrafilter using the turbulent behavior. In the present study, the performance was further improved by properly and gradually decreasing the baffled-ring distance along the cross-flow channel coupled with properly adjusting the number of baffled rings. This theoretical analysis is based on the mass and momentum balances as well as the application of the resistance-in-series model. The correlation predictions are confirmed with the experimental results for dextran T500 aqueous solution ultrafiltration.

Key Words
ultrafiltration; tubular membrane; ring-rod insert; baffled-ring distance; proper ring number

Address
Yoshinobu Tanaka : IEM Research. 1-46-3 Kamiya, Ushiki-shi, Ibaraki 300-1216, Japan Hazime Uchino : Tokai University, College of Marine Science and Technology, 3-20-1 Orido, Shimizu-ku, Shizuoka-shi, Shizuoka 424-8610, Japan Masayoshi Murakami : Japan Fine Salt Co. Ltd., 3-3-3 Yako, Kawasaki-ku, Kawasaki-shi, Kanagawa 210-0863, Japan

Table of Contents
       
 
  • 2020  Volume 11      No. 1      No.2    No.3    No.4
     
  • 2019  Volume 10      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2018  Volume 9      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2017  Volume 8      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2016  Volume 7      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2015  Volume 6      No. 1      No.2    No.3    No.4    No.5    No.6
     
  • 2014  Volume 5      No. 1      No.2    No.3    No.4
     
  • 2013  Volume 4      No. 1      No.2    No.3    No.4
     
  • 2012  Volume 3      No. 1      No.2    No.3    No.4
     
  • 2011  Volume 2      No. 1      No.2    No.3    No.4
     
  • 2010  Volume 1      No. 1      No.2    No.3    No.4
           
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