Self-cleaning membrane under visible light treatment
Let the sunshine in: Self-cleaning membrane under visible light treatment
by National Research Council of Science & Technology
The hydrophilic photocatalytic membrane showed excellent antimicrobial activity under visible light and the anti-biofouling property enabled a complete flux recovery of the membrane in repeated cycles. Credit: Korea Institute of Science and Technology(KIST)
Membrane technology is widely used in various water treatment processes such as water desalination, sewage treatment, and advanced water treatment for producing clean tap water. Membrane filtration technology is a method that can significantly improve water quality and has been suggested as an alternative that can effectively prevent larvae in the tap water that has become a widespread issue in Korea recently. However, current membrane technology suffers from a rapid performance reduction due to the accumulation of bacterial adhesion on the membrane surface and the growth of microbial cells, leading to high maintenance costs.
The Korea Institute of Science and Technology (KIST) reported that the research team led by Dr. Jeehye Byun and Director Seok Won Hong from the Water Cycle Research Center developed a membrane material that self-cleans biological contaminants through irradiation of sunlight. According to the team, the newly developed membrane material is expected to significantly reduce the cost of membrane management as the membrane can be reused after just 10 minutes of sunlight irradiation.
Water treatment membranes require periodic cleaning as contaminants are accumulated on the membrane surface after water filtration. Currently, used membranes require cleaning with harsh chemicals for more than six hours at least once a week, which results in fairly high operating cost and damages the membranes due to the chemicals.
As a way to address these issues, researchers at KIST combined a visible-light-responsive photocatalyst to the water treatment membrane surface. This surface-modified photocatalytic membrane can fully decompose contaminants accumulated on the surface when irradiated with visible light, thereby easily cleaning the membrane. In particular, it displayed outstanding performance by removing 99.9% of bacteria, such as Escherichia coli and Staphylococcus aureus; and viruses, such as the MS2 bacteriophage, accumulated on the membrane surface in less than an hour of light treatment. According to the team, the developed membrane can treat not only microbial cells but also organic contaminants such as dye solutions and heavy metals. Further, it showed the advantage of maintaining performance even after repeating the tests more than 10 times.
"Our research revealed that the efficiency of the water treatment processes can be improved by combining photocatalytic technology and water treatment membrane technology," Dr. Jeehye Byun from KIST said. "Based on these research results, we will endeavor to develop next-generation membranes that can lead the water treatment membrane market."