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Posted: Nov 30, 2015
Nanomembrane technology improves the removal of salt from seawater
(Nanowerk News) Researchers at Hiroshima University have developed a technology that improves the removal of salt from seawater, a breakthrough that may alleviate the increasing demand for fresh water in some countries.
"A global shortage of fresh water is a long-term challenge that mankind faces in this century," said the director of the ROBUST membrane project, Professor Toshinori Tsuru.
One practical problem of separation membranes is "biofouling", where biofilms form on the membrane surface. This slows the amount of water that can pass through the membrane. Sodium hypochlorite is commonly used to remove these biofilms; however, the chlorine can also damage the membrane.
Professor Tsuru, who is supported by CREST (Core Research for Evolutional Science and Technology) and is a member of the Center for Research on Environmentally Friendly Smart Materials at Hiroshima University's Institute of Engineering, said that the new membranes are more robust, which makes them resistant to chlorine. They are also heat resistant, meaning they can be used in desalination at a temperature of 80°C.
"We are developing ROBUST membranes using three materials: silicon-based, hydrocarbon, and chemical vapor deposition. First we have developed silicon-based ROBUST membranes," Professor Tsuru said.
"We expect Japan to continue to be one of the leading countries in membrane technologies and membrane-treatment systems," he said.
About the ROBUST membrane project
The ROBUST membrane project is one of the CREST programs for promising research projects funded by the Japan Science and Technology Agency (JST). The purpose of this project is to develop ROBUST reverse osmosis (RO)/nanofiltration (NF) membranes that can be used in water containing chloride at a wide range of pH and/or at high temperatures. The project aims to examine the applicability of the ROBUST membrane for various types of water resources.