Qualifications & Memberships
Research interests include:- Turbulent mixing in open channels - Double-diffusive convection - Mixing in stratified flows - Internal gravity waves and intrusive flows - Geophysical fluid dynamics - Application of computer technology to experimental methods in fluid dynamics
- Fleming JG., Walters RA., Sue LP. and Nokes RI. (2005) Experimental Design for Solid Block and Granular Submarine Landslides: A Unified Approach. In Satake K (Ed.), Tsunamis: Case Studies and Recent Developments: 259-277. Amsterdam: Springer.
- Hughes G. and Nokes R. (1995) Wave-convection coupling in multi-component convection: an experimental study. In Brandt A; Fernando H (Ed.), Double Diffusive Convection: 49-56. Washington: American Geophysical Union.
- Whittaker CN., Nokes RI., Lo HY., Liu PLF. and Davidson MJ. (2017) Physical and numerical modelling of tsunami generation by a moving obstacle at the bottom boundary. Environmental Fluid Mechanics : 1-30. http://dx.doi.org/10.1007/s10652-017-9526-z.
- Crowe AT., Davidson MJ. and Nokes RI. (2016) Modified reduced buoyancy flux model for desalination discharges. Desalination 378: 53-59. http://dx.doi.org/10.1016/j.desal.2015.08.010.
- Crowe AT., Davidson MJ. and Nokes RI. (2016) Velocity measurements in inclined negatively buoyant jets. Environmental Fluid Mechanics 16(3): 503-520. http://dx.doi.org/10.1007/s10652-015-9435-y.
Professor Roger Nokes was elected by academic staff and is a member of the Finance, Planning and Resources Committee.