WERRI researchers are pioneering advanced water treatment technologies to lower the energy use in water treatment while increasing the safety and reliability. Using the tools of nano-engineering and advanced computational modeling, WERRI researchers are optimizing the performance of current water treatment technologies such as reverse osmosis, and developing novel low-cost water purification technologies that can operate using sunlight and air. WERRI researchers are also developing novel methods and systems for water reuse and conservation, including economic and systems models that illuminate the magnitude of economic benefit for California and the U.S. that can come from these innovations.
- Water in Confined Spaces (Musahid Ahmed)
- Affordable Safe Drinking Water for Poor Communities in Poor Countries – on scale (Ashok Gadgil)
- SAFR: Scalable and Affordable Fluoride Removal (Andrew Z. Haddad, Katya Cherukumilli, Ashok J. Gadgil)
- Electrochemical Arsenic Remediation (ECAR) (Dana Hernandez, Siva Bandaru, Kate Boden, Ashok Gadgil)
- Surface Engineering to Reduce Membrane Fouling (Daniel Miller)
- Controlling Membrane Morphology to Improve Performance (Gregory Su)
- Electrically Regenerated Ion-Exchange Technology (Chinmayee Subban)
- In Situ Study of the Mechanisms of Biofouling in Wastewater Reuse (Emily Tow and Robert Kostecki)
- Enhanced Forward Osmosis Desalination with Thermo-Responsive Ionic Liquid/Hydrogel Binary Draw Agent (Jeffrey J. Urban)
- Selective Ion Capture via Electrodialysis with Advanced Porous Materials (Jeffrey J. Urban)
