Prof Brian Launder


 

Contact details

Prof Brian  Launder
Role: Professor of Mechanical Engineering
         ScD, DSc (Eng), DSc, DEng, Docteur (hc), FIMechE, FASME, FRAeS, FRS, FREng

Room number: C31, George Begg
Telephone: +44 (0) 161 306 3801
Fax:+44 (0) 161 306 3723
Email:
 

Professional biography

Professor Launder read Mechanical Engineering at Imperial College receiving the Bramwell Medal for graduating at the head of the class. He then obtained his master's and doctoral degrees at the Massachusetts Institute of Technology (MIT) for experimental research on boundary layers. He rejoined Imperial College in 1964 to serve for 12 years on the faculty as lecturer and then Reader in Fluid Mechanics. He was appointed Professor of Mechanical Eng-ineering at the University of California, Davis in 1976 where he stayed four years until he accepted the Headship of the Thermo-Fluids Division at UMIST.

His research group, focusing on the mechanics and CFD modelling of turbulent flows, particularly in the presence of strong buoyant or rotational forces, achieved a strong international reputation. In recognition, Professor Launder has been admitted as a Fellow of the Royal Society and the Royal Academy of Engineering while he has received many international honours including honorary degrees from two European universities. He served two terms as head of the Mechanical Engineering Department (1983-85 and 1993-95) and afterwards took on the chairmanship of the campus-wide Environmental Strategy Group, a role he discharged until the creation of the University of Manchester. He also served as the Regional Director of the Tyndall Centre for Climate Change Research from its creation in 2000 until 2006.

While retaining his interests in fundamental turbulence modelling, much of his time nowadays is taken up in preparing biographical matter and in editorial work .

Research

Themes:

Specialisms:

Specific research interests

  • Development of reflection-free turbulence models at second-moment-closure level
  • Development of improved inexpensive models for handling near-wall turbulence
  • Measurement of flow and heat transfer in rotating systems
  • Modelling of strongly stratified flows

Teaching

    Teaching Unit(s):

    • MACE31421 Fluid Mechanics*
    • MACE61040 Fluid Mechanics

    Teaching materials are available in Blackboard
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