"Large-Eddy Simulation and Wind Tunnel Experiment of Airflow over Bolund Hill"
written by Takanori Uchida,
published by Open Journal of Fluid Dynamics, Vol.8 No.1, 2018
has been cited by the following article(s):
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[1] Numerical Prediction of Strong Wind Induced by Topographic Effect
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[2] Numerical investigation of terrain-induced turbulence in complex terrain using high-resolution elevation data and surface roughness data constructed with a drone
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[3] Reproduction of Local Strong Wind Area Induced in the Downstream of Small‐scale Terrain by Computational Fluid Dynamic (CFD) Approach
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[4] A Large-Eddy Simulation-Based Assessment of the Risk of Wind Turbine Failures Due to Terrain-Induced Turbulence over a Wind Farm in Complex Terrain
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[5] A Large-Eddy Simulation-Based Assessment of the Risk of Wind Turbine Failures Due to Terrain-Induced Turbulence over a Wind Farim inComplex Terrain
Kyushu University Institutional Repository, 2019
[6] Reproduction of Local Strong Wind Area Induced in the Downstream of Small-Scale Terrain by Computational Fluid Dynamic (CFD) Approach
Modelling and Simulation in Engineering, 2019
[7] Analysis of Different Turbulence Models in Simulation of Hypersonic Flow in the Wind Tunnel
American Journal of Mechanical Engineering, 2019
[8] Design Wind Speed Evaluation Technique in Wind Turbine Installation Point by Using the Meteorological and CFD Models
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[9] Computational Investigation of the Causes of Wind Turbine Blade Damage at Japan's Wind Farm in Complex Terrain
Journal of Flow Control, Measurement & Visualization, 2018
[10] LES Investigation of Terrain-Induced Turbulence in Complex Terrain and Economic Effects of Wind Turbine Control
Energies, 2018
[11] Comparison of RANS and LES in the Prediction of Airflow Field over Steep Complex Terrain
Open Journal of Fluid Dynamics, 2018
[12] Numerical Investigation of Terrain-Induced Turbulence in Complex Terrain by Large-Eddy Simulation (LES) Technique
Energies, 2018
[13] Wind Turbine Control Based on Computational Fluid Dynamics (CFD) and Its Economic Effects
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[14] Computational Fluid Dynamics (CFD) Investigation of Wind Turbine Nacelle Separation Accident over Complex Terrain in Japan
Energies, 2018
[15] Numerical Reproducibility of Terrain-induced Turbulence in Complex Terrain by Large-eddy Simulation (LES) Technique
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[16] Computational Fluid Dynamics Approach to Predict the Actual Wind Speed over Complex Terrain
Energies, 2018
[17] Large-Eddy Simulation of Airflow over a Steep, Three-Dimensional Isolated Hill with Multi-GPUs Computing
Open Journal of Fluid Dynamics, 2018
[18] A Large-Eddy Simulation-Based Assessment of the Risk of Wind Turbine Failures Due to Terrain-Induced Turbulence over a Wind Farim inComplex …