Overview
ABSTRACT
Filtration membranes have been known since the beginning of the 20th century. They have seen a strong development in water treatment since the early 1980s. Microfiltration, ultrafiltration, nanofiltration, and reverse osmosis offer a wide range of molecular weight cutoff values, and so are technologies of choice in various water treatments. This article gives an overview of the potential of membrane technologies, illustrated with some examples from seawater desalination, drinking water production and wastewater treatment for reuse.
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Read the articleAUTHORS
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Christel CAUSSERAND: Professor UPS Chemical Engineering Laboratory, University of Toulouse, CNRS, INPT, UPS, Toulouse, France
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Claire ALBASI: CNRS Research Director, Chemical Engineering Laboratory, University of Toulouse, CNRS, INPT, UPS, Toulouse, France
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Hélène ROUX de BALMANN: CNRS Research Director, Chemical Engineering Laboratory, University of Toulouse, CNRS, INPT, UPS, Toulouse, France
INTRODUCTION
The United Nations' flagship water program, the World Water Assessment Program (WWAP), which brings together the World Health Organization (WHO) and UNICEF, estimates that every human being needs at least 20 to 50 L of clean water every day to satisfy his or her needs. Nearly 2 out of 10 people are still deprived of drinking water, and over a billion people are forced to consume potentially contaminated water. Water pollution from industrial, agricultural and domestic wastewater discharges has dramatic consequences. The most worrying of these is the spread of disease, with cholera, typhoid and dysentery at the top of the list. It is estimated that 80% of diseases prevalent in developing countries are directly linked to poor access to drinking water and sanitation.
Freshwater resources are finite: the foreseeable increase in population and industrial development raise fears of a breakdown in water resources with far more serious consequences than those that will result from the end of oil reserves. There are substitutes for oil, but not for water. By 2030, 47% of the population is expected to be water-stressed, compared with 40% today (source: UNESCO).
The quality of the water supplied and the quantity required are therefore the criteria that need to be reconciled when it comes to water treatment. Membrane separation processes (reverse osmosis RO, nanofiltration NF, ultrafiltration UF, microfiltration MF) are well placed to achieve these objectives. Because membranes act as a physical barrier, they can reliably produce high-quality water for human consumption and industry, whether from fresh or salt water. Introduced into wastewater treatment, these separation operations enable water to be recycled and/or reused, potentially solving the problem of quantity.
The glossary at the end of the article summarizes the definitions used in the article and those needed to understand it.
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KEYWORDS
seawater desalination | reverse osmosis | nanofiltration | ultrafiltration | microfiltration
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Membrane filtration (RO, NF, UF, MF)
Bibliography
Websites
Seawater desalination: the changes needed to keep pace with the sector's growth/Energies and Environment http://www.energie.sia-partners.comhttp://www.lenntech.fr/
ANSES "Reuse of grey water for domestic use: a practice to be framed", published Apr. 29,...
Events
MemPro conference "Membrane integration in processes", held every three years http://wsm-cluster.fr
Regulations
Anses opinion – Collective expertise report – August 2012
Reuse of treated wastewater for crop irrigation, sprinkler irrigation of green spaces and road washing https://www.anses.fr
Interministerial Instruction No. DGS/EA4/DEB/DGPE/2016/135 of Apr. 26, 2016 on the reuse of treated wastewater for irrigation of...
Patents
ABIDINE Nouhab patent WO 2015082855A1. Process for monitoring the integrity of filtration membranes during operation (2015).
Directory
Organizations – Federations – Associations (non-exhaustive list)
WSM (Water Sensor Membrane) Cluster: an association that aims to intensify and facilitate the national and international development of companies, research laboratories and training centers working in the field of membrane and sensor technologies applied to the water sector. http://wsm-cluster.fr/
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