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EPSRC Support by Research Area (Fluid Dynamics and Aerodynamics) in Theme (Energy)

Research areas are used to describe EPSRC's portfolio of excellent long term research and high quality postgraduate training.

Grants are classified using one or more research areas. The number and value of grants listed below reflects how the theme portfolio is described by this research area.

Please note: some research areas will appear under multiple themes. There is no unique, absolute, relationship between a research area and a theme.

Grant TitlePrincipal
Investigator
OrganisationDepartmentTotal Grant
Value (£)
Accurate modelling of wind turbine wake spreading through consideration of realistic turbulent entrainment: revolutionising wind farm optimisationBuxton, Dr OImperial College LondonAeronautics 1,290,141
AmmoSpray: fundamental spray and combustion data for a zero-carbon futureLeach, Dr FCPUniversity of OxfordEngineering Science 505,381
DMS-EPSRC Stochastic Nonsmooth Analysis For Energy HarvestingYurchenko, Dr DHeriot-Watt UniversitySch of Engineering and Physical Science 339,549
Extreme Loading on Floating Offshore Wind Turbines (FOWTs) under Complex Environmental ConditionsHann, Dr M RUniversity of PlymouthSch of Engineering 389,691
Extreme Loading on Floating Offshore Wind Turbines (FOWTs) under Complex Environmental ConditionsGuo, Dr XSTFC Laboratories (Grouped)The Hartree Centre 63,391
Extreme Loading on Floating Offshore Wind Turbines (FOWTs) under Complex Environmental ConditionsCampobasso, Dr MLancaster UniversityEngineering 44,275
Extreme Loading on FOWT under Complex Environmental ConditionsYan, Dr SCity, University of LondonSch of Engineering and Mathematical Sci 332,158
Extreme Loading on FOWT under Complex Environmental ConditionsQian, Professor LManchester Metropolitan UniversitySch of Computing, Maths and Digital Tech 353,156
Industrial waste heat recovery using supercritical carbon dioxide cycles (SCOTWOHR)Sayma, Professor ACity, University of LondonSch of Engineering and Mathematical Sci 767,859
Modelling surface effects in two-phase fluid processes across scalesGiustini, Dr GImperial College LondonMechanical Engineering 393,842
SCOTWOHR - INDUSTRIAL WASTE HEAT RECOVERY USING SUPERCRITICAL CARBON DIOXIDE CYCLESTassou, Professor SBrunel University LondonMechanical and Aerospace Engineering 707,925
Towards comprehensive multiphase flow modelling for nuclear reactor thermal hydraulicsColombo, Dr MUniversity of LeedsChemical and Process Engineering 345,425

Total Number of Grants: 12
Total Value of Grants: £5,532,793

The grant value may include the cost of access to facilities (these funds are not awarded to the grant holding organisation).