SEDE BOQER, Israel…Dec. 29, 2015- Researchers at the Zuckerberg Institute for Water Research at Ben-Gurion University of the Negev (BGU) and Yale University have determined that pressure-retarded osmosis technology is not feasible primarily due to biofouling (the accumulation of organic material as well as different organisms such as algae and bacteria on various surfaces that impairing structures and hinder system performance).
Pressure-retarded osmosis (PRO) is a process that for several decades has been considered to have potential as a sustainable energy source. It utilizes various salinity gradients, such as sea and river water, or desalination brine and wastewater. In PRO, water from a low-salinity feed solution permeates through a membrane into a pressurized, high-salinity draw solution. Power is obtained by depressurizing the draw through a hydro-turbine.
According to the new study published in the journal Environmental Science & Technology (ACS Publications), researchers at the Zuckerberg Institute and Yale University found that, "power generation by PRO produces little and next to nothing due to biofouling caused by bacteria that clog the membrane structure and the feed channel." Prior to this study, researchers from Yale reported that this technology is thermodynamically challenging and is hardly viable.
"While the concept of using an 'osmotic gradient' to harness power has existed since the 1970s, our research shows that commercial PRO is currently 'dead in the water'," says Zuckerberg's Dr. Edo Bar-Zeev. "Biofouling is detrimental to the process and can't be mitigated since there are no membranes today that are specifically designed for PRO."
He claims that to make PRO viable, the process requires either sterile streams on both sides or a new membrane design. "These membranes must be dedicated for PRO technology instead of using the current forward osmosis (FO) membranes," Dr. Bar-Zeev explains.
In the study, researchers explored the PRO's efficiency and practicality under biofouling conditions using synthetic wastewater secondary effluents and seawater reverse osmosis (SWRO) desalination brine. Experiments were conducted in a small-scale PRO setup using thin-film composite FO membrane and fabric feed spacers.
"The study showed that organic matter and bacteria in the feed wastewater stream resulted in extreme biofouling development across the feed spacer as well as the membrane support layer, thereby crippling PRO performance," explains Bar-Zeev. "These results will likely extend to other natural waters, such as river waters, where dissolved organic matter and bacteria are also prevalent."
Other researchers that were closely involved in the study include Prof. Menachem Elimelech, Yale University, who is also on the Scientific Advisory Board of the Zuckerberg Institute for Water Research; Anthony P. Straub, Department of Chemical and Environmental Engineering, Yale University; and Dr. Francois Perreault, School of Sustainable Engineering and the Built Environment, Arizona State University.
Impaired Performance of Pressure-Retarded Osmosis Due to Irreversible Biofouling received support from the National Science Foundation and National Science Foundation Graduate Research Fellowship. Research funding was provided by the Natural Sciences and Engineering Research Council of Canada and United States-Israel Binational Agricultural Research and Development Fund. Facilities used were supported by the Yale Institute of Nanoscale and Quantum Engineering (YINQE). (DOI) 10.1021/acs.est.
About Zuckerberg Institute for Water Research
The Zuckerberg Institute for Water Research (Zuckerberg), Israel's largest and leading water institute, conducts interdisciplinary, cutting-edge research and graduate education in hydrology, water sciences and desert studies, aimed at improving human well being through technologies and policies for sustainable use of water resources. World-renowned researchers are focused on desalination technologies and groundwater production, water quality and microbiology, as well as water resource economics and management. Zuckerberg graduate programs attract students from all corners of the world who are involved in research projects and collaborations in both developed and underdeveloped countries. Named for New York philanthropist Roy Zuckerberg, the Institute was founded in 2002 within the Jacob Blaustein Institutes for Desert Research at the Sede Boqer Campus of Ben-Gurion University of the Negev. For more information, visit http://www.aabgu.org/water.
About American Associates, Ben-Gurion University of the Negev
American Associates, Ben-Gurion University of the Negev (AABGU) plays a vital role in sustaining David Ben-Gurion's vision, creating a world-class institution of education and research in the Israeli desert, nurturing the Negev community and sharing the University's expertise locally and around the globe. With some 20,000 students on campuses in Beer-Sheva, Sede Boqer and Eilat in Israel's southern desert, BGU is a university with a conscience, where the highest academic standards are integrated with community involvement, committed to sustainable development of the Negev. AABGU is headquartered in Manhattan and has nine regional offices throughout the U.S. For more information, please visit http://www.aabgu.org.