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Researcher Details
 
Name: Professor SJ Sherwin
Organisation: Imperial College London
Department: Aeronautics
Current EPSRC-Supported Research Topics:
Aerodynamics Continuum Mechanics
Fluid Dynamics

Current EPSRC Support
EP/S029389/1 Three dimensionality and Instabilities of Leading-Edge Vortices(P)
EP/R029326/1 UK Turbulence Consortium(C)
EP/R029423/1 PRISM: Platform for Research In Simulation Methods(P)
Previous EPSRC Support
EP/L000407/1 Platform: Underpinning Technologies for Finite Element Simulation(P)
EP/K037536/1 Vortex Induced Vibration and Structural Integrity of Deep Water Flexible Risers(P)
EP/K038788/1 libhpc Stage II: A Long-term Solution for the Usability, Maintainability and Sustainability of HPC Software(C)
EP/L000261/1 UK Turbulence Consortium(C)
EP/I030239/1 libhpc: Intelligent Component-based Development of HPC Applications(C)
EP/I037946/1 LFC-UK: Development of Underpinning Technology for Laminar Flow Control(C)
EP/H050507/1 AIM (Advanced Instability Methods) for industry(P)
EP/H000208/1 UK Turbulence Consortium(P)
EP/F045093/1 Streak Instability and Bypass Transition(C)
EP/E006493/1 Visiting Researcher: BiGlobal Methods for Optimal Flow Perturbations(P)
EP/C539842/1 Arteries and Algorithms: Computational physiological flow and arterial disease modelling(P)
EP/D044073/1 UK Turbulence Consortium(C)
EP/C539834/1 Arteries and Algorithms: Computational physiological flow and arterial disease modelling(P)
EP/C510240/1 Vortex Induced Vibration And Fatigue Of Deep Water Flexible Riser Pipes(C)
GR/T02539/01 Network in Physiological Flow Modelling: Promoting Interactions between Physiological Flow Modellers and Bioscientist(P)
GR/T02546/01 Network in Physiological Flow Modelling: Promoting Interactions between Physiological Flow Modellers and Bioscientist(C)
GR/T02553/01 BioGlobal Stability Analysis using Spectral/hp Element Method(P)
GR/S63595/01 Medium-performance computing cluster for computational research on turbulent-flow aerodynamics & hydrodynamics(C)
GR/S64455/01 Vortex Induced Vibration of Deep Water Riser Pipes in Complex Configurations(C)
GR/S33963/01 DARP: Efficient Lift Cycle Management of Resin Infused Flight Critical Ptimary Composite Structures (ELRIPS): (Work Package 2)(P)
GR/S27436/01 DARP: Highly swept leading edge separations - Computational investigation(C)
GR/R64957/01 UK Turbulence Consortium.(C)
GR/R35865/01 Modelling of riser vortex induced vibration response(C)
GR/N08797/01 CFD FOR OFFSHORE STRUCTURES(P)
GR/M08424/02 UK TURBULENCE CONSORTIUM(C)
GR/M08424/01 UK TURBULENCE CONSORTIUM(C)
GR/L48096/01 BRIDGE DESIGN: COMPUTATIONAL MODELLING OF BRIDGE DECK INSTABILITIES DUE TO CROSS WINDS(C)
GR/L16262/01 NUMERICAL SOLUTION OF FLOW AROUND OFFSHORE STRUCTURES USING FINITE ELEMENT AND VORTEX METHODS (FPS 118)(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator