Name:	Professor FT Smith
Organisation:	UCL
Department:	Mathematics
Current EPSRC-Supported Research Topics:

Current EPSRC Support

There is no current EPSRC Support

Previous EPSRC Support

EP/K011839/1 RCUK CENTRE for ENERGY EPIDEMIOLOGY (CEE): the study of energy demand in a population. (C) EP/J500926/1 The LTCC (P) EP/H051112/1 People, Energy and Buildings: Distribution, Diversity and Dynamics (PEB:D3) (C) EP/H02185X/1 ENFOLD-ing - Explaining, Modelling, and Forecasting Global Dynamics (C) EP/E045413/1 WORKSHOP: Multiscaled Mathematics in Defence Research and its Spinoffs (P) EP/E504485/1 London taught course centre for PhD students in the mathematical sciences (P) EP/D069335/1 Air and surface effects on water droplet impact /MATHEMATICS-FOR-BUSINESS CALL (P) GR/T22148/01 Evolution of violent flows (P) GR/S09418/01 Cerebral networks with AVMs (P) GR/S35394/01 Theory and Computation in Unsteady Flow Modelling (P) GR/R91939/01 FARADAY FAST TRACK PROPOSAL: DROPLET IMPACT ON WATER LAYERS (P) GR/R40135/01 Combining Computation and Theory for Medium-Rate Shear Flows (P) GR/N37551/01 MATHEMATICAL THEORY OF INTERNAL ICING (C) GR/M94946/01 THREE-DIMENSIONAL AND UNSTEADY SEPARATIONS: COMPUTATIONS, THEORY AND COMPARISONS (P) GR/K67281/01 BLADE-WAKE INTERACTIONS IN ROTARY FLOWS (P) GR/J22481/01 SWIRL AND CROSS-FLOW TRANSITIONS (C) GR/J56752/01 COMPUTATIONS FOR STALL AND TRANSITION (P) GR/J25048/01 INTERNAL DYNAMICS OF TRANSITIONAL/TURBULENT BOUNDARY LAYERS (P) GR/J37942/01 COMPUTATIONAL TECHNIQUES IN AERODYNAMICS AND GEOPHYSICAL FLUID DYNAMICS (C) GR/H76807/01 THEORY AND EXPERIMENTS ON NONLINEAR SPOTS (P) GR/H08167/01 SUPPORT FOR COMPUTATIONAL FLUID DYNAMICS COMPUTATIONAL SCIENCE INIATIVE (C) GR/G38092/01 HYPERSONIC INTERNAL FLOWS AND TRANSITION. (P) GR/F73113/01 HYPERSONIC INTERACTIONS ON THICK BODIES AND COOL/HOT SURFACES (SERC/MOD) (P) GR/F34077/01 THEORY AND COMPUTATION ON COMPRESSIBLE BOUNDARY-LAYER TRANSITION (P) GR/F41488/01 SUPPORT FOR COMPUTATIONAL FLUID DYNAMICS (C) GR/E53101/01 UNSTEADY EULER FLOWS AND VISCOUS EFFECTS-NONLINEAR SYSTEMS (P) GR/E26464/01 VISCOUS-INVISCID HYPERSONIC INTERNAL FLOW -- MOD/SERC (P)

Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator