主 讲 人:Yongsheng Chen(教授)
主 持 人:钟士发(研究员)
开始时间:2023年6月2号下午3点
讲座地址:资环楼435
主办单位:生态与环境科学学院、科技处
报告人简介:
Dr. Yongsheng Chen is the Bonnie W. and Charles W. Moorman IV Professor in the School of Civil and Environmental Engineering at Georgia Institute of Technology and the Director of Nutrients Energy Water Center for AgTech. Professor Chen joined Georgia Institute of Technology in 2009. Professor Chen’s research interests include environmental nanotechnology, membrane technology for sustainable energy and nutrients recovery, the Food-Energy-Water Nexus, and machine learning for sustainable membrane material screening, system integration, and process optimization. He has served as PI/Co-PI on sponsored research projects totaling more than $41M, of which, $18.5M has been, or is being, spent in his laboratory. He has over 206 published research articles. He has received numerous accolades, including the CAPEES/Nanova Lifetime Achievement Award, the American Chemical Society Editor’s Award, the Georgia Institute of Technology’s Sustained Research Award and Multidisciplinary Research Award, Sigma Xi Best Ph.D. Student Dissertation Advisor Award, and AEESP Outstanding Ph.D. Student Advisor Award. His work has been recognized by more than 20 national and international media outlets including Forbes, C&EN, AEESP, The Atlanta Journal-Constitution (AJC), and Water Environment Federation.
报告内容简介:
The use of chlorine-based methods to disinfect drinking water was a major advancement for public health in the 20th century, as it significantly reduced the risk of waterborne diseases caused by microbes. However, concerns remain about the safety of chlorinated drinking water due to the presence of small amounts of regulated and unregulated disinfection byproducts (DBPs), as well as other known, unknown, and emerging contaminants (KUECs) that can have long-term effects and need to be eliminated. Traditional chemical-based water treatment processes are ineffective in removing DBPs and KUECs, necessitating alternative approaches to minimize these risks. In this presentation, we introduce the "Minus Approach," a novel water treatment method that addresses DBPs and KUECs without compromising microbiological safety. The Minus Approach aims to produce biologically stable water with lower concentrations of KUECs and DBPs while reducing the use of chemical treatments that can cause problems. It focuses on membrane-based physical separation techniques to effectively remove DBP precursors, KUECs, and pathogens from the water treatment process. Implementing the Minus Approach in water treatment improves sustainability by reducing reliance on chemical treatments and minimizing harmful contaminants in treated water.
