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Researcher Details
 
Name: Professor D Emerson
Organisation: STFC Laboratories (Grouped)
Department: Scientific Computing Department
Current EPSRC-Supported Research Topics:
Computer Sys. & Architecture Computer Sys. & Architecture
Fluid Dynamics Materials Characterisation
Mathematical Analysis Parallel Computing
Software Engineering

Current EPSRC Support
EP/X035875/1 UK Consortium on Mesoscale Engineering Sciences (UKCOMES)(C)
EP/X035484/1 The UK Turbulence Consortium(C)
EP/W026686/1 Turbulence at the exascale: application to wind energy, green aviation, air quality and net-zero combustion(C)
EP/W00755X/1 Integrated Simulation at the Exascale: coupling, synthesis and performance(C)
EP/T026170/1 CCP Turbulence(C)
Previous EPSRC Support
EP/V000942/1 Turbulent Flow Simulations at the Exascale: Application to Wind Energy and Green Aviation(C)
EP/V001531/1 Exascale Computing for System-Level Engineering: Design, Optimisation and Resilience(C)
EP/R029369/1 Addressing Challenges Through Effective Utilisation of High Performance Computing - a case for the UK Consortium on Turbulent Reacting Flows (UKCTRF)(C)
EP/R029326/1 UK Turbulence Consortium(C)
EP/R029598/1 UK Consortium on Mesoscale Engineering Sciences (UKCOMES)(C)
EP/P022243/1 "HiLeMMS": High-Level Mesoscale Modelling System(C)
EP/P022286/1 Adaptive software for high-fidelity simulations of multi-phase turbulent reacting flows(C)
EP/R001618/1 Feasibility of the use of frozen walls in molten salt fast reactors (MSFR-FW)(C)
EP/N033841/1 A holistic framework for hybrid modelling of solid-liquid flows(P)
EP/N016602/1 Nano-Engineered Flow Technologies: Simulation for Design across Scale and Phase(C)
EP/K024574/1 HIGH PERFORMANCE COMPUTING SUPPORT FOR UNITED KINGDOM CONSORTIUM ON TURBULENT REACTING FLOWS (UKCTRF)(P)
EP/K038451/1 Future-proof massively-parallel execution of multi-block applications(P)
EP/K038427/1 The First Open Source Software for Non-Continuum Flows in Engineering(P)
EP/L000261/1 UK Turbulence Consortium(C)
EP/L00030X/1 UK Consortium on Mesoscale Engineering Sciences (UKCOMES)(C)
EP/J010448/1 CCP12: High Performance Computing in Engineering(P)
EP/I011927/1 Non-Equilibrium Fluid Dynamics for Micro/Nano Engineering Systems(C)
EP/G069735/1 UK Turbulence Consortium(P)
EP/F002602/1 Supercomputing Resources and Support for the UK Applied Aerodynamics Consortium 2 (2007-2010)(P)
EP/F014171/1 Extended Continuum Models for Transient and Rarefied Hypersonic Aerothermodynamics(P)
EP/F010915/1 The accurate computation of thin film flows and the motion of droplets on real functional surfaces.(P)
EP/D07455X/1 A Lattice Boltzmann Model for Non-Equilibrium Flows in Micro/Nano-systems(P)
GR/S91130/01 Supercomputer Resources for the UK Applied Aerodynamics Consortium(P)
GR/S82978/01 Micro-Droplet Technology for High Throughput Systems and Methods(C)
GR/S77196/01 Fluid Flow and Heat Transfer in Gas Microsystems(C)
GR/R64964/01 UK Turbulence Consortium Support.(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator