Multiscale Thermofluids

Postgraduate
4.12 Alrick Building
Multiscale Thermofluids
Postgraduate
4.12 Alrick Building
Multiscale Thermofluids
Senior Lecturer in Mechanical Engineering
+44(0)131 6505715
2.2014 James Clerk Maxwell Building
Mechanical Engineering
Multiscale Thermofluids
Senior Lecturer in Mechanical Engineering
+44(0)131 6505715
2.2014 James Clerk Maxwell Building
Mechanical Engineering
Multiscale Thermofluids
Senior Lecturer in Mechanical Engineering
+44(0)131 6505557
2.2412 James Clerk Maxwell Building
Mechanical Engineering
Multiscale Thermofluids

PhD, University of Melbourne (2017)

MSc, University of California, Davis (2012)

Senior Lecturer in Mechanical Engineering
+44(0)131 6505557
2.2412 James Clerk Maxwell Building
Mechanical Engineering
Multiscale Thermofluids

PhD, University of Melbourne (2017)

MSc, University of California, Davis (2012)

Personal Chair in Fluid Dynamics and Director of Discipline
+44(0)131 6505691
2.2414 James Clerk Maxwell Building
Chemical Engineering
Multiscale Thermofluids
Image
Professor Prashant Valluri

My work centres around the development of understanding and mathematical models for complex multiphase flow patterns to tackle various industrial problems like cleaning, oil-gas transport, slurry transport, distillation, absorption, thermal management of microdevices and biological problems such as cerebral temperature regulation and lung function.

PhD, Department of Chemical Engineering, Imperial College London, 2004

  • Thesis Title: Multiphase Fluid Dynamics in Structured Packing

 

  • Fluid Mechanics 4 (Chemical) CHEE10004
  • Chemical Engineering Industrial Project 5 CHEE11014
  • Chemical Engineering Research Project 5 CHEE11017
  • Chemical Engineering Study Project 4 CHEE10009
  • Chemical Engineering Design Projects 4 CHEE10002
  • Chemical Engineering 1 Laboratory CHEE08001
  • Chemical Engineering in Practise 3 CHEE09006
  • Transport phenomena (e.g. phase change, reaction-diffusion transport)
  • Multiphase (& single phase) fluid dynamics: Development of numerical (CFD/DNS) and analytical (stability theory) tools (e.g. oil-gas-solid pipeline flows, industrial cleaning and fouling)
  • Biological fluid dynamics (e.g. brain temperature mapping, arterial flows, enzymatic kinetics)
  • Head of Graduate School (2018 - present)
  • Deputy Head of Graduate School (2016 - present)
  • Acting Deputy Head of Graduate School (2015 - 2016)
</div>
Personal Chair in Fluid Dynamics and Director of Discipline
+44(0)131 6505691
2.2414 James Clerk Maxwell Building
Chemical Engineering
Multiscale Thermofluids
Image
Professor Prashant Valluri

My work centres around the development of understanding and mathematical models for complex multiphase flow patterns to tackle various industrial problems like cleaning, oil-gas transport, slurry transport, distillation, absorption, thermal management of microdevices and biological problems such as cerebral temperature regulation and lung function.

PhD, Department of Chemical Engineering, Imperial College London, 2004

  • Thesis Title: Multiphase Fluid Dynamics in Structured Packing

 

  • Fluid Mechanics 4 (Chemical) CHEE10004
  • Chemical Engineering Industrial Project 5 CHEE11014
  • Chemical Engineering Research Project 5 CHEE11017
  • Chemical Engineering Study Project 4 CHEE10009
  • Chemical Engineering Design Projects 4 CHEE10002
  • Chemical Engineering 1 Laboratory CHEE08001
  • Chemical Engineering in Practise 3 CHEE09006
  • Transport phenomena (e.g. phase change, reaction-diffusion transport)
  • Multiphase (& single phase) fluid dynamics: Development of numerical (CFD/DNS) and analytical (stability theory) tools (e.g. oil-gas-solid pipeline flows, industrial cleaning and fouling)
  • Biological fluid dynamics (e.g. brain temperature mapping, arterial flows, enzymatic kinetics)
  • Head of Graduate School (2018 - present)
  • Deputy Head of Graduate School (2016 - present)
  • Acting Deputy Head of Graduate School (2015 - 2016)
</div>
Postgraduate
2.2017 James Clerk Maxwell Building
Multiscale Thermofluids
Postgraduate
2.2017 James Clerk Maxwell Building
Multiscale Thermofluids