Henrik Asmuth
Researcher at Department of Earth Sciences; Wind Energy
- E-mail:
- henrik.asmuth@geo.uu.se
- Visiting address:
- Campus Gotland, Cramérgatan 3
62157 Visby - Postal address:
- Uppsala universitet, Campus Gotland
62167 Visby
Download contact information for Henrik Asmuth at Department of Earth Sciences; Wind Energy
- ORCID:
- 0000-0003-2929-3022
Short presentation
PhD student in the wind energy group
Keywords
- wind energy
- computational fluid dynamics
- wind resource assessment
- wakes

Publications
Recent publications
How Fast is Fast Enough?: Industry Perspectives on the Use of Large-eddy Simulation in Wind Energy
Part of WAKE CONFERENCE 2023, 2023
- DOI for How Fast is Fast Enough?: Industry Perspectives on the Use of Large-eddy Simulation in Wind Energy
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Validation of a Lattice Boltzmann Solver Against Wind Turbine Response and Wake Measurements
Part of WAKE CONFERENCE 2023, 2023
- DOI for Validation of a Lattice Boltzmann Solver Against Wind Turbine Response and Wake Measurements
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The characteristics of helically deflected wind turbine wakes
Part of Journal of Fluid Mechanics, 2023
- DOI for The characteristics of helically deflected wind turbine wakes
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Actuator line model using simplified force calculation methods
Part of Wind Energy Science, p. 363-382, 2023
- DOI for Actuator line model using simplified force calculation methods
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Comparison of three DWM-based wake models at above-rated wind speeds
Part of WAKE CONFERENCE 2023, 2023
- DOI for Comparison of three DWM-based wake models at above-rated wind speeds
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All publications
Articles in journal
The characteristics of helically deflected wind turbine wakes
Part of Journal of Fluid Mechanics, 2023
- DOI for The characteristics of helically deflected wind turbine wakes
- Download full text (pdf) of The characteristics of helically deflected wind turbine wakes
Actuator line model using simplified force calculation methods
Part of Wind Energy Science, p. 363-382, 2023
- DOI for Actuator line model using simplified force calculation methods
- Download full text (pdf) of Actuator line model using simplified force calculation methods
WakeNet 0.1: A Simple Three-dimensional Wake Model Based on Convolutional Neural Networks
Part of Journal of Physics, Conference Series, 2022
- DOI for WakeNet 0.1: A Simple Three-dimensional Wake Model Based on Convolutional Neural Networks
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Wind Turbine Response in Waked Inflow: A Modelling Benchmark Against Full-Scale Measurements
Part of Renewable energy, p. 868-887, 2022
- DOI for Wind Turbine Response in Waked Inflow: A Modelling Benchmark Against Full-Scale Measurements
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Wall-modeled lattice Boltzmann large-eddy simulation of neutral atmospheric boundary layers
Part of Physics of fluids, p. 105111-105111, 2021
- DOI for Wall-modeled lattice Boltzmann large-eddy simulation of neutral atmospheric boundary layers
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Exploring the application of reinforcement learning to wind farm control
Part of Journal of Physics, Conference Series, 2021
- DOI for Exploring the application of reinforcement learning to wind farm control
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Assessment of Weak Compressibility in Actuator Line Simulations of Wind Turbine Wakes
Part of Journal of Physics, Conference Series, 2020
- DOI for Assessment of Weak Compressibility in Actuator Line Simulations of Wind Turbine Wakes
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Actuator line simulations of wind turbine wakes using the lattice Boltzmann method
Part of Wind Energy Science, p. 623-645, 2020
- DOI for Actuator line simulations of wind turbine wakes using the lattice Boltzmann method
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Analytical body forces in numerical actuator disc model of wind turbines
Part of Renewable energy, p. 2259-2271, 2020
Part of Journal of Physics, Conference Series, 2019
- DOI for The Actuator Line Model in Lattice Boltzmann Frameworks: Numerical Sensitivity and Computational Performance
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Comprehensive doctoral thesis
Conference papers
How Fast is Fast Enough?: Industry Perspectives on the Use of Large-eddy Simulation in Wind Energy
Part of WAKE CONFERENCE 2023, 2023
- DOI for How Fast is Fast Enough?: Industry Perspectives on the Use of Large-eddy Simulation in Wind Energy
- Download full text (pdf) of How Fast is Fast Enough?: Industry Perspectives on the Use of Large-eddy Simulation in Wind Energy
Validation of a Lattice Boltzmann Solver Against Wind Turbine Response and Wake Measurements
Part of WAKE CONFERENCE 2023, 2023
- DOI for Validation of a Lattice Boltzmann Solver Against Wind Turbine Response and Wake Measurements
- Download full text (pdf) of Validation of a Lattice Boltzmann Solver Against Wind Turbine Response and Wake Measurements
Comparison of three DWM-based wake models at above-rated wind speeds
Part of WAKE CONFERENCE 2023, 2023
- DOI for Comparison of three DWM-based wake models at above-rated wind speeds
- Download full text (pdf) of Comparison of three DWM-based wake models at above-rated wind speeds
Dependence of wind turbine loads on inlet flow field
Part of Science of making torque from wind (TORQUE 2020), pts 1-5, 2020
- DOI for Dependence of wind turbine loads on inlet flow field
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