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

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 (£)
Adaptively Tuned High-Order Unstructured Finite-Volume Methods for Turbulent FlowsTsoutsanis, Dr PCranfield UniversitySch of Aerospace, Transport & Manufact 51,344
Analysis of waves, instabilities and mean flows in MHD systemsGilbert, Professor ADUniversity of ExeterMathematics 435,812
deeP redUced oRder predIctive Fluid dYnamics model (PURIFY)Xiao, Dr DSwansea UniversityCollege of Engineering 315,689
DMS-EPSRC Stochastic Nonsmooth Analysis For Energy HarvestingYurchenko, Dr DUniversity of SouthamptonSch of Engineering 212,117
Exact Coherent Structures in Viscoelastic TurbulenceKerswell, Professor RUniversity of CambridgeApplied Maths and Theoretical Physics 466,610
Exact Coherent Structures in Viscoelastic TurbulenceKerswell, Professor RUniversity of CambridgeApplied Maths and Theoretical Physics 466,610
Feedback Control of Deformable BubblesThompson, Dr ABUniversity of Manchester, TheMathematics 234,174
Foam Improved Oil Recovery: Effects of Flow ReversalLue, Dr LUniversity of StrathclydeChemical and Process Engineering 256,728
Functional Underpinnings of Summation-By-Parts Finite DifferencesBrambley, Dr EJUniversity of WarwickMathematics 295,057
Hitching the subcritical branch of convectionPotherat, Professor ACoventry UniversityCtr for Fluid and Complex Systems 71,436
Mathematical Modelling of Rare Events in Nanoflows: A Feasibility StudySprittles, Professor JEUniversity of WarwickMathematics 79,092
Mesh-free methods for turbulent reacting flows: the next generation of DNSLind, Dr S JUniversity of Manchester, TheMechanical Aerospace and Civil Eng 78,835
Modelling turbulence induced by hydrodynamic instability in differentially-rotating flowPark, Dr JCoventry UniversityCtr for Fluid and Complex Systems 77,937
Stochastic wave modelling for inhomogeneous sea-statesStuhlmeier, Dr RUniversity of PlymouthSch of Eng, Comp and Math (SECaM) 166,508

Total Number of Grants: 14
Total Value of Grants: £3,207,947

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