EPSRC logo
Researcher Details
 
Name: Professor JM Graham
Organisation: Imperial College London
Department: Dept of Aeronautics
Current EPSRC-Supported Research Topics:
Energy - Marine & Hydropower Wind Power

Current EPSRC Support
EP/R007470/1 FENGBO-WIND - Farming the ENvironment into the Grid: Big data in Offshore Wind(P)
Previous EPSRC Support
EP/P510312/1 KES - Kite Energy Scheme(P)
EP/N006224/1 MAXFARM (MAXimizing wind Farm Aerodynamic Resource via advanced Modelling)(C)
EP/N508524/1 SWEPT2(P)
EP/K037536/1 Vortex Induced Vibration and Structural Integrity of Deep Water Flexible Risers(C)
EP/H029982/1 Aerodynamic control of Long span Bridges(P)
EP/C510240/1 Vortex Induced Vibration And Fatigue Of Deep Water Flexible Riser Pipes(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(P)
GR/R35865/01 Modelling of riser vortex induced vibration response(P)
GR/N08797/01 CFD FOR OFFSHORE STRUCTURES(C)
GR/M80499/01 MTP99: ADVANCED COMPUTATIONAL METHODS FOR AERONAUTICS FLOW MANAGEMENT AND FLUID STRUCTURE INTERACTION(P)
GR/N04522/01 DYNAMIC RESPONSE OF WIND TURBINE STRUCTURE IN WAVES(P)
GR/M22062/01 DEVELOPMENT OF METHODS FOR IMPROVING DRAG ESTIMATION(C)
GR/M03245/01 AN INVESTIGATION INTO MOTION DAMPING DEVICES FOR FPSOS(C)
GR/M03276/01 AN INVESTIGATION INTO MOTION DAMPING DEVICES FOR FPSOS(P)
GR/M10380/01 HYDRODYNAMIC DAMPING OF CYLINDERS IN WAVES AND CURRENTS AT LARGE SCALE(C)
GR/M08042/01 NUMERICAL PREDICTION OF VORTEX INDUCED VIBRATION OF DEEP-WATER RISERS IN SHEARED CURRENTS(P)
GR/L16262/01 NUMERICAL SOLUTION OF FLOW AROUND OFFSHORE STRUCTURES USING FINITE ELEMENT AND VORTEX METHODS (FPS 118)(P)
GR/K79048/01 HORIZONTAL FLOATING WELLS TURBINE(P)
GR/K66277/01 NUMERICAL SIMULATION OF WAVE FORCES ON VERTICAL CYLINDERS USING A PARALLEL COMPUTER (TUB 137)(P)
GR/J23563/01 PREDICTION OF SLOW DRIFT DAMPING (COM 30)(P)
GR/J23631/01 THEORETICAL PREDICTION OF THE VISCOUS DAMPING AND RESPONSE OF THREE-DIMENSIONAL FLOATING STRUCTURES (FPS 98)(C)
GR/J14363/01 PREDICTION OF THE CHARACTERISTICS OF A WELLS TURBINE OSCILLATORY FLOW(P)
GR/J14370/01 WIND ENERGY ASSOCIATED WITH BUILDING(P)
GR/J19610/01 FORCES ON CYLINDERS AT LARGE SCALE IN WAVES AND CURRENTS, INCLUDING EFFECTS OF SURFACE ROUGHNESS (TUB 126)(P)
GR/H74797/01 EXPERIMENTAL AND COMPUTATIONAL STUDY OF THE RESPONSE OF FLEXIBLE CYLINDERS IN OSCILLATORY FLOW (OFF 117)(C)
GR/H16179/01 PREDICTION OF STALLING ON WIND TURBINE ROTOR BLADES(P)
GR/H15707/01 COMPUTATION OF 3D SEPARATED OSCILLATORY FLOW PAST CIRCULAR CYLINDERS USING A VORTEX METHOD (OFF105)(C)
GR/F72413/01 BEHAVIOUR OF FIXED AND COMPLIANT OFFSHORE STRUCTURES: IMPERIAL COLLEGE(C)
GR/F25457/01 ADDITIONAL PROJECT IN MARINE TECHNOLOGY PROGRAMME FLUID LOADING 1987-89(C)
GR/F07903/01 PARALLEL COMPUTING IN MARINE TECHNOLOGY (OFF 81)(C)
GR/E64244/01 PROJECTS IN MARINE TECHNOLOGY PROGRAMME FLUID LOADING 1987-89(C)
GR/D85884/01 THE VISCOUS DAMPING OF FLOAING MARINE STRUCTURES(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator