High-Performance Computing in Wind Energy Part 1
High-performance computing of wind turbine tip-vortex instability
Slides
Ardeshir Hanifi, Researcher at KTH – Royal Institute Of Technology
Blade-resolved and actuator line CFD simulations of the flow through the NREL 5 MW wind turbine
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Bruno Carmo, Assistant Professor at the Department of Mechanical Engineering, Escola Politécnica, University of São Paulo
Optimising CFD I/O through on-node non-volatile memory
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Adrian Jackson, Senior Research Fellow at EPCC
Actuator Line Modeling in Large Eddy Simulations
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Richard Stevens, Associate Professor at University of Twente
LES Simulations of Wind Turbines in a Turbulent Atmospheric Boundary Layer
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Flavio Galeazzo, Research Scientist | HLRS – High-Performance Computing Center Stuttgart
Near-wake resolving FSI of wind turbine blade using high-fidelity simulation
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Mohsen Lahooti, Lecturer (Assistant Professor) In Fluid-Structure Interaction, School of Engineering, Newcastle University
HPC developments in Alya for Wind Energy Applications
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Herbert Owen, Senior researcher at Barcelona Supercomputing Center
A seamless avenue to drive wind resource time series modeling: the MPAS model and the mesoscale reframed
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Marta Gil Bardají, R&D Director at VORTEX
Latest developments in Mesoscale to microscale model chain for wind resource assessment: The importance of HPC
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Jake Badger, Head of Section, Wind Resource Assessment Modelling at DTU Wind Energy
A hybrid solution for wind resource assessment – predict offshore wind from limited onshore measurements
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Xuerui Mao, University of Nottingham
Downscaling with the WRAPP methodology: clustering of meteorological situations and microscale CFD modeling
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Eric Joos, Clementine le Guennic, EdF R&D
