UK Turbulence Consortium online talks
As it is not possible to organise our annual meetings in person (and it is very unlikely that we will be able to do so anytime soon), the UKTC management committee is pleased to announce the launch of the UKTC online talk series.
The idea is very simple: every research group who had access to UKTC ARCHER resources in the last 2 years will present their work virtually, in dedicated sessions. Each session, with 4 talks, will last a maximum of 1h30 and will focus on a particular topic.
The idea is very simple: every research group who had access to UKTC ARCHER resources in the last 2 years will present their work virtually, in dedicated sessions. Each session, with 4 talks, will last a maximum of 1h30 and will focus on a particular topic.
Session 5: "Towards industrial & real life cases":
Emily Manchester (Imperial College London): Quantifying the effects of turbulence in aortic valve disease
Shane Nicolas (City University): Effects of in-plane solidity on the different regimes of canopy flows
Dania Ahmed (Imperial College London): Feedback control of bi-modality in the wake of blunt bluff bodies
Boye E. ThankGod (University of Southampton): Impact of Large-Scale Turbulence on Wind turbine Blade Aerodynamics
Emily Manchester (Imperial College London): Quantifying the effects of turbulence in aortic valve disease
Shane Nicolas (City University): Effects of in-plane solidity on the different regimes of canopy flows
Dania Ahmed (Imperial College London): Feedback control of bi-modality in the wake of blunt bluff bodies
Boye E. ThankGod (University of Southampton): Impact of Large-Scale Turbulence on Wind turbine Blade Aerodynamics
Session 4: Turbomachinery:
Zhong-Nan Wang(University of Birmingham): Hierarchical turbulence and geometry modelling of fan tip and wake flows
Chris Ellis (Loughborough University): Mixing of hot stream and cold jet in an effusion cooling environment
Jian Fang (Daresbury Lab): Direct numerical simulations of Ma=2.9 flow past compression corners with different deflection angles
Joshua Maynard (University of Cambridge): Compressor tip leakage flows
Chat with questions available here.
Zhong-Nan Wang(University of Birmingham): Hierarchical turbulence and geometry modelling of fan tip and wake flows
Chris Ellis (Loughborough University): Mixing of hot stream and cold jet in an effusion cooling environment
Jian Fang (Daresbury Lab): Direct numerical simulations of Ma=2.9 flow past compression corners with different deflection angles
Joshua Maynard (University of Cambridge): Compressor tip leakage flows
Chat with questions available here.
Session 3: Airfoil, turbines & blades:
Xuerui Mao (University of Nottingham): Bypass transition induced by plasma actuation in flow around a flat plate
Carlo Suardi (City University): Sweep angle effects of the flow past an infinite-span wing in transitional regime
Eldad Avital (Queen Mary University of London): From human-made to nature-made blades, how we can exploit the flow dynamics
Arturo Munoz Simon (Imperial College London): From atmospheric turbulence to wind turbine blade loads
Xuerui Mao (University of Nottingham): Bypass transition induced by plasma actuation in flow around a flat plate
Carlo Suardi (City University): Sweep angle effects of the flow past an infinite-span wing in transitional regime
Eldad Avital (Queen Mary University of London): From human-made to nature-made blades, how we can exploit the flow dynamics
Arturo Munoz Simon (Imperial College London): From atmospheric turbulence to wind turbine blade loads
Session 2: Compressible & no-ideal flows:
Alex Gillespie (University of Southampton): DNS of shock trains
Xingxing Chen (STFC): A high-order hybrid numerical method for DNS of hypersonic flow past a blunt body
Olaf Marxen (University of Surrey): Simulations of chemically reacting hypersonic boundary layers
Spencer Sherwin (Imperial College London): An implicit compressible spectral/hp element flow solver in Nektar++
Alex Gillespie (University of Southampton): DNS of shock trains
Xingxing Chen (STFC): A high-order hybrid numerical method for DNS of hypersonic flow past a blunt body
Olaf Marxen (University of Surrey): Simulations of chemically reacting hypersonic boundary layers
Spencer Sherwin (Imperial College London): An implicit compressible spectral/hp element flow solver in Nektar++
Session 1: Wall Turbulence:
Omar Mahfoze (Imperial College London): Bayesian Optimisation for net energy saving in wall-turbulence
Paolo Olivucci (University of Sheffield): Passively rotating discs for skin-friction reduction in wall-bounded turbulent flow
Jae-Wook Kim (University of Southampton): Direct numerical simulations on channel flow with large longitudinal ribs
Yvonne Chen (University of Warwick): Uniform momentum zone in the turbulent pipe flow
Omar Mahfoze (Imperial College London): Bayesian Optimisation for net energy saving in wall-turbulence
Paolo Olivucci (University of Sheffield): Passively rotating discs for skin-friction reduction in wall-bounded turbulent flow
Jae-Wook Kim (University of Southampton): Direct numerical simulations on channel flow with large longitudinal ribs
Yvonne Chen (University of Warwick): Uniform momentum zone in the turbulent pipe flow