Andrew Clifton
Andrew Clifton
University of Stuttgart
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
Grand challenges in the science of wind energy
P Veers, K Dykes, E Lantz, S Barth, CL Bottasso, O Carlson, A Clifton, ...
Science 366 (6464), eaau2027, 2019
The wind integration national dataset (wind) toolkit
C Draxl, A Clifton, BM Hodge, J McCaa
Applied Energy 151, 355-366, 2015
Persistence in intra‐annual snow depth distribution: 1. Measurements and topographic control
M Schirmer, V Wirz, A Clifton, M Lehning
Water Resources Research 47 (9), 2011
Using machine learning to predict wind turbine power output
A Clifton, L Kilcher, JK Lundquist, P Fleming
Environmental research letters 8 (2), 024009, 2013
Field-test results using a nacelle-mounted lidar for improving wind turbine power capture by reducing yaw misalignment
PA Fleming, AK Scholbrock, A Jehu, S Davoust, E Osler, AD Wright, ...
Journal of Physics: Conference Series 524 (1), 012002, 2014
Snow saltation threshold measurements in a drifting-snow wind tunnel
A Clifton, JD Ruedi, M Lehning
Journal of Glaciology 52 (179), 585-596, 2006
Overview and meteorological validation of the wind integration national dataset toolkit
C Draxl, BM Hodge, A Clifton, J McCaa
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2015
Quantifying error of lidar and sodar Doppler beam swinging measurements of wind turbine wakes using computational fluid dynamics
JK Lundquist, MJ Churchfield, S Lee, A Clifton
Atmospheric Measurement Techniques 8 (2), 907-920, 2015
Wind turbine power production and annual energy production depend on atmospheric stability and turbulence
CM St Martin, JK Lundquist, A Clifton, GS Poulos, SJ Schreck
Wind Energy Science 1 (2), 221-236, 2016
Validation of power output for the WIND Toolkit
J King, A Clifton, BM Hodge
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2014
Rotor equivalent wind speed for power curve measurement–comparative exercise for IEA Wind Annex 32
R Wagner, B Cañadillas, A Clifton, S Feeney, N Nygaard, M Poodt, ...
Journal of Physics: Conference Series 524 (1), 012108, 2014
The second wind forecast improvement project (WFIP2): Observational field campaign
JM Wilczak, M Stoelinga, LK Berg, J Sharp, C Draxl, K McCaffrey, ...
Bulletin of the American Meteorological Society 100 (9), 1701-1723, 2019
Wind plant preconstruction energy estimates. current practice and opportunities
A Clifton, A Smith, M Fields
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2016
Assessing state-of-the-art capabilities for probing the atmospheric boundary layer: the XPIA field campaign
JK Lundquist, JM Wilczak, R Ashton, L Bianco, WA Brewer, A Choukulkar, ...
Bulletin of the American Meteorological Society 98 (2), 289-314, 2017
On shear-driven ventilation of snow
A Clifton, C Manes, JD Rüedi, M Guala, M Lehning
Boundary-layer meteorology 126, 249-261, 2008
IEA Wind Task 32: Wind lidar identifying and mitigating barriers to the adoption of wind lidar
A Clifton, P Clive, J Gottschall, D Schlipf, E Simley, L Simmons, D Stein, ...
Remote Sensing 10 (3), 406, 2018
Data clustering reveals climate impacts on local wind phenomena
A Clifton, JK Lundquist
Journal of Applied Meteorology and Climatology 51 (8), 1547-1557, 2012
Wind power curve modeling in complex terrain using statistical models
V Bulaevskaya, S Wharton, A Clifton, G Qualley, WO Miller
Journal of Renewable and Sustainable Energy 7 (1), 2015
Improvement and validation of a snow saltation model using wind tunnel measurements
A Clifton, M Lehning
Earth Surface Processes and Landforms 33 (14), 2156-2173, 2008
Accounting for the effect of turbulence on wind turbine power curves
A Clifton, R Wagner
Journal of Physics: Conference Series 524 (1), 012109, 2014
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