Benoit Cushman-Roisin

Research Interests

Environmental transport processes; environmental fluid mechanics; industrial ecology; sustainable design; energy efficiency

Education

• BS, Engineering Physics, University of Liège (Belgium) 1978
• PhD, Geophysical Fluid Dynamics, Florida State University 1980

Professional Activities

• Editor-in-Chief (and Founding Editor), Environmental Fluid Mechanics, 2000-present.
• Adjunct Professor, School of Environmental Sciences, University of Nova Gorica, Slovenia
• Co-organizer and co-convener of "Modelling of Oceanic Vortices" colloquium, Royal Dutch Academy of Arts and Sciences, Amsterdam

Research Projects

• Environmental fluid mechanics

  Environmental fluid mechanics

  Environmental fluid mechanics research studies natural fluid systems as agents for the transport and dispersion of environmental contamination. Understanding transport and dispersion processes in natural fluid flows, from the microscale to the planetary scale, serves as the basis for the development of models aimed at simulations, predictions, and ultimately sustainable environmental management. Research within this scope is diverse and can involve a variety of scientific and engineering disciplines such as civil, mechanical, and environmental engineering, meteorology, hydrology, hydraulics, limnology, and oceanography.

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Selected Publications

• Cushman-Roisin, B., 2008: "Beyond eddy diffusivity: An alternative model for turbulent dispersion," Env. Fluid Mech., 8, 543-549.
• Cushman-Roisin, B., and A. D. Jenkins, 2006: "On a non-local parameterization for shear turbulence and the uniqueness of its solutions," Boundary-Layer Meterorol., 118, 69-82.
• Cushman-Roisin, B., M. Gacie, P.-M. Poulain, and A. Artegiani, 2001:
• Cushman-Roisin, B., N.J. Rice, and M.A. Moldaver, 2000: "A simulation tool for Industrial Ecology," J. Industrial Ecology 3, 131-144.
• Esenkov, O. E., and B. Cushman-Roisin, 1999: "Modeling of two-layer eddies and coastal flows with a particle method," J. Geophys. Res, 104, 10959-10980.

Courses

• ENGS 171: Sustainable Product Design
• ENGS 37: Introduction to Environmental Engineering
• ENGS 41: Sustainability and Natural Resource Management
• ENGS 151: Environmental Fluid Mechanics
• ENGS 24: Science of Materials
• ENGG 199.12: Geophysical Fluid Dynamics

Books

Data, Statistics, and Useful Numbers for Environmental Sustainability

Elsevier, 2021

Introduction to Geophysical Fluid Dynamics: Physical and Numerical Aspects

Academic Press, 2011

Physical Oceanography of the Adriatic Sea: Past, Present, and Future

Kluwer Academic Publishers, 2001

Introduction to Geophysical Fluid Dynamics

Prentice Hall, 1994

News

Student Awarded 2024–25 Mazilu Engineering Research Fellowship
Jun 19, 2024

Geisel and Thayer Investigators Partner to Reduce Medical Waste
Mar 29, 2021

Dartmouth Tiny House No Small Wonder
Nov 26, 2019

Dartmouth Engineering Professors Discuss Promising Technologies for the Environment
Apr 15, 2013

In the News