koseff

Jeffrey R. Koseff, PhD

  • Professor of Civil and Environmental Engineering, Professor of Chemical Engineering, by courtesy
  • FSI senior fellow, by courtesy, Co-director, Stanford Woods Institute for the Environment

Department of Civil and Environmental Engineering
Terman Engineering Center, M-9
Stanford, CA 94305-4020

(650) 736-2363 (voice)

Biography

Jeff Koseff, founding co-director of the Stanford Woods Institute for the Environment, is an expert in the interdisciplinary domain of environmental fluid mechanics. His research falls in the interdisciplinary domain of environmental fluid mechanics and focuses on the interaction between physical and biological systems in natural aquatic environments. Current research activities are in the general area of environmental fluid mechanics and focus on: turbulence and internal wave dynamics in stratified flows, transport and mixing in estuarine systems, phytoplankton dynamics in estuarine systems, coral reef, sea-grass and kelp-forest hydrodynamics, and the role of natural systems in coastal protection. Most recently he has begun to focus on the interaction between gravity currents and breaking internal waves in the near-coastal environment, and the transport of marine microplastics. Koseff has served on the Board of Governors of The Israel Institute of Technology, and has been a member of the Visiting Committees of the Civil and Environmental Engineering department at Carnegie-Mellon University, The Iowa Institute of Hydraulic Research, and Cornell University. He has also been a member of review committees for the College of Engineering at the University of Michigan, The WHOI-MIT Joint Program, and the University of Minnesota Institute on the Environment. He is a former member of the Independent Science Board of the Bay/Delta Authority. He was elected a Fellow of the American Physical Society in 2015, and received the Richard Lyman Award from Stanford University in the same year.

publications

Journal Articles
February 2011

Numerical Modeling of Aquaculture Dissolved Waste Transport in a Coastal Embayment

Author(s)
cover link Numerical Modeling of Aquaculture Dissolved Waste Transport in a Coastal Embayment