Turbulence at the exascale: application to wind energy, green aviation, air quality and net-zero combustion
2021-12 – 2025-11 ·
completed · SPF · EP/W026686/1
External collaborators:
- Sylvain Laizet (PI, Imperial College London)
- David Emerson (Co-I, Science and Technology Facilities Council)
- Neil David Sandham (Co-I, University of Southampton)
- Robert Stewart Cant (Co-I, University of Cambridge)
- Luca Magri (Co-I, Imperial College London)
- Gihan Mudalige (Co-I, University of Warwick)
- Nilanjan Chakraborty (Co-I, Newcastle University)
We lead the urban air-quality work package and prepare uDALES for exascale compute. EPSRC programme grant of GBP 3.2M (GBP 505k to Imperial).
Publications acknowledging this grant
- The drag length is key to quantifying tree canopy dragDipanjan Majumdar, Giulio Vita, Rubina Ramponi, Nina Glover, Maarten van Reeuwijk · Journal of Wind Engineering and Industrial Aerodynamics · 2025
- A conservative immersed boundary method for the multi-physics urban large-eddy simulation model uDALES v2.0Sam Oliver Owens, Dipanjan Majumdar, Christopher Edward Wilson, Paul Bartholomew, Maarten van Reeuwijk · · 2024
- A conservative immersed boundary method for the multi-physics urban large-eddy simulation model uDALES v2.0Sam O. Owens, Dipanjan Majumdar, Chris E. Wilson, Paul Bartholomew, Maarten van Reeuwijk · Geoscientific Model Development · 2024