RF
Publications
- Scanning lidars for atmospheric boundary-layer research
- Mesoscale and Microscale Downscaling for the Wind Atlas of South Africa (WASA) Project: Phase 3
- The RUNE Experiment—A Database of Remote-Sensing Observations of Near-Shore Winds
- From lidar scans to roughness maps for wind resource modeling in forested areas
- Evaluating Mesoscale Simulations of the Coastal Flow Using Lidar Measurements
- Response to reviewer 2
- From lidar scans to roughness maps for wind resource modelling in forested areas
- Carrier-to-Noise-Threshold Filtering on Off-Shore Wind Lidar Measurements
- Rossby number similarity of atmospheric RANS using limited length scale turbulence closures extended to unstable stratification
- Rossby number similarity of an atmospheric RANS model using limited-length-scale turbulence closures extended to unstable stratification
- Ten Years of Boundary-Layer and Wind-Power Meteorology at Høvsøre, Denmark
- Evaluating and improving WAsP using tall wind measurements
- On the vertical structure of wind gusts
- Lidar observations of marine boundary-layer winds and heights: a preliminary study
- Weibull Wind-Speed Distribution Parameters Derived from a Combination of Wind-Lidar and Tall-Mast Measurements Over Land, Coastal and Marine Sites
- Observations of the boundary-layer height and the wind profile in the marine boundary layer
- Observations and modeling of the wind profile and wind turning in the atmospheric boundary layer
- On the use of lidars in wind energy
- Long-term variability of the wind speed over land, in coastal and in marine areas
- Dependence of Weibull distribution parameters on the CNR threshold i wind lidar data
- Reducing Uncertainty of Near-shore wind resource Estimates (RUNE) using wind lidars and mesoscale models
- Report on RUNE’s coastal experiment and first inter-comparisons between measurements systems
- Estimating near-shore wind resources
- Implementation of large-scale average geostrophic wind shear in WAsP12.1
- Effect of Carrier to Noise Ration threshold filtering on the long-term wind speed and Weibull distribution parameters for a pulsed heterodyne wind lidar
- On the spatial and temporal resolution of land cover products for applied use in wind resource mapping
- Near-shore wind resource estimation using lidar measurements and modelling
- Land surface parameterization from new satellite sensors
- Calculation of Global Atlas of Siting Parameters
- Comparison of ERA-5 reanalysis and observed cloud cover in the high Arctic
- Long-term ceilometer/wind-lidar observations of aerosol-layer depth in the Arctic
- Creating and validating high-resolution wind atlases
- Estimating Air Density Using Observations and Re-Analysis Outputs for Wind Energy Purposes
- Opførelse af vindmøller på land
- Review
- Response to reviewer 1
- WindKit: a Python Framework for Wind Resource Assessment Applications
- Investigating predictability of offshore winds using a mesoscale model driven by forecast and reanalysis data
- Extreme gust atlas over South Africa
- Ten years of the Wind Atlas of South Africa: Final results from WASA 3
- Observed and modelled cloud cover up to 6 km height at Station Nord in the high Arctic
- Using SST and land cover data from EO Missions for improved mesoscale modelling of the coastal zone
- Using SST for imporved mesoscale modelling of the coastal zone
- Wind Atlas for South Africa (WASA) – Best practice guide for application of WASA
- The Global Atlas for Siting Parameters project: Extreme wind, turbulence, and turbine classes
- Mesoscale and microscale downscaling for the Wind Atlas of Mexico (WAM) project
- Satellite-based estimation of roughness lengths and displacement heights for wind resource modelling
- Satellite-based estimation of roughness lengths and displacement heights for wind resource modelling
- Atlas of extreme wind and gust for South Africa
- Towards Better Wind Resource Modeling in Complex Terrain: A k-Nearest Neighbors Approach
- Challenges in wind modelling for modern wind turbines
- The RUNE Experiment–A Database of Remote-Sensing Observations of Near-Shore Winds
- The effect of baroclinicity on the wind profile in the planetary boundary layer
- "Tall" wind profiles and related issues
- Atmospheric boundary layer wind profile at a flat coastal site – wind speed lidar measurements and mesoscale modeling results
- Aspects on the use of wind lidar measurements up to 600 meters for wind energy stydies: wind profile, weibull distribution and boundary layer height
- Comparing modeled wind profile with long-range wind lidar measurements at a flat coastal site
- Analysis of diabatic flow modification in the internal boundary layer
- "Tall" wind profiles and the effect of offshore atmospheric stability
- Measurements and modeling of the wind profile up to 600 meters at a flat coastal site
- The wind profile up to 600 meters at a flat coastal site; Comparison between WRF modeling and lidar measurements
- Some challenges of wind modelling for modern wind turbines: The Weibull distribution
- Wind lidar profile measurements in the coastal boundary layer: comparison with WRF modelling
- Comparison of Large Eddy Simulations of a convective boundary layer with wind LIDAR measurements
- Profiles of the Weibull distribution parameters of the long term wind speed measurements
- The wind profile in the coastal boundary layer
- On the relation between the wind above the planetary boundary layer and hubheight wind: the baroclinic case
- Measuring and modelling of the wind on the scale of tall wind turbines
- The Tall Wind-Profile Offshore Experiment: Wind Profile Observations in the Marine Atmospheric Boundary Layer
- Understanding the role of baroclinity on the wind in the northern seas’ coastal areas
- Wind profile modelling using WAsP and "tall" wind measurements
- Reply to the Comment by Bergmann on "The Høvsøre Tall Wind-Profile Experiment: A Description of Wind Profile Observations in the Atmospheric Boundary Layer"
- The wind profile up to 600 meters at a flat coastal site; Comparison between WRF modeling and lidar measurements
- Comparing modelled wind profile with long-range wind lidar measurements at a flat coastal site
- Comprehensive utilization of mesoscale modelling for wind energy applications
- The Høvsøre Tall Wind-Profile Experiment: A Description of Wind Profile Observations in the Atmospheric Boundary Layer
- Measurements and Modeling of the Wind Profile Up to 600 meters at a Flat Coastal Site
- The Wind Profile in the Coastal Boundary Layer: Wind Lidar Measurements and Numerical Modelling
- The effect of baroclinicity on the wind in the planetary boundary layer
- Long-Term Profiles of Wind and Weibull Distribution Parameters up to 600 m in a Rural Coastal and an Inland Suburban Area
- The turning of the wind in the atmospheric boundary layer
- A study on the effect of nudging on long-term boundary layer profiles of wind and weibull distribution parameters in a rural coastal area
- Analysis of diabatic flow modification in the internal boundary layer
- Using Observed and Modelled Heat Fluxes for Improved Extrapolation of Wind Distributions
- Observed aerosol-layer depth at Station Nord in the high Arctic
- Aerosol-layer structure and wind profile in the high Arctic
- Using mesoscale and microscale models for wind resource assessment
- The Global Wind Atlas: A high-resolution dataset of climatologies and associated web-based application