Skip to main content
OSTI.GOVU.S. Department of Energy Office of Scientific and Technical Information
U.S. Department of Energy
Office of Scientific and Technical Information
 

Lidar arc scan uncertainty reduction through scanning geometry optimization

Journal Article · · Atmospheric Measurement Techniques (Online)
; ; ;

Abstract. Doppler lidars are frequently operated in a mode referred to as arc scans, wherein the lidar beam scans across a sector with a fixed elevation angle and the resulting measurements are used to derive an estimate of the n minute horizontal mean wind velocity (speed and direction). Previous studies have shown that the uncertainty in the measured wind speed originates from turbulent wind fluctuations and depends on the scan geometry (the arc span and the arc orientation). This paper is designed to provide guidance on optimal scan geometries for two key applications in the wind energy industry: wind turbine power performance analysis and annual energy production prediction. We present a quantitative analysis of the retrieved wind speed uncertainty derived using a theoretical model with the assumption of isotropic and frozen turbulence, and observations from three sites that are onshore with flat terrain, onshore with complex terrain and offshore, respectively. The results from both the theoretical model and observations show that the uncertainty is scaled with the turbulence intensity such that the relative standard error on the 10 min mean wind speed is about 30 % of the turbulence intensity. The uncertainty in both retrieved wind speeds and derived wind energy production estimates can be reduced by aligning lidar beams with the dominant wind direction, increasing the arc span and lowering the number of beams per arc scan. Large arc spans should be used at sites with high turbulence intensity and/or large wind direction variation.

Sponsoring Organization:
USDOE
Grant/Contract Number:
EE0005379
OSTI ID:
1247216
Alternate ID(s):
OSTI ID: 1258745
Journal Information:
Atmospheric Measurement Techniques (Online), Journal Name: Atmospheric Measurement Techniques (Online) Journal Issue: 4 Vol. 9; ISSN 1867-8548
Publisher:
Copernicus Publications, EGUCopyright Statement
Country of Publication:
Germany
Language:
English

References (27)

Wind turbulence estimates in a valley by coherent Doppler lidar: Turbulence Estimates from Doppler Lidar journal August 2011
A pulsed coherent CO2 lidar for boundary-layer meteorology journal October 1999
Analysis of light detection and ranging wind speed measurements for wind turbine control: Analysis of LIDAR measurements journal February 2013
Accounting for the speed shear in wind turbine power performance measurement: Accounting for speed shear in power performance measurement journal October 2011
Lidar profilers in the context of wind energy-a verification procedure for traceable measurements: Lidar profilers in the context of wind energy journal December 2011
Coherent Doppler lidar for wind farm characterization: Coherent Doppler lidar for wind farm characterization journal January 2012
Investigation of a Complex Nocturnal Flow in Owens Valley, California Using Coherent Doppler Lidar journal May 2012
Review and intercomparison of operational methods for the determination of the mixing height journal January 2000
Turbulence in the Atmosphere book January 2010
The vertical distribution of wind and turbulent exchange in a neutral atmosphere journal July 1962
Doppler lidar measurements of the great plains low-level jet: applications to wind energy journal May 2008
Wind shear proportional errors in the horizontal wind speed sensed by focused, range gated lidars journal May 2008
Conically scanning lidar error in complex terrain [Conically scanning lidar error in complex terrain] journal May 2009
Comparison of CW-Lidar-Measured Wind Values Obtained by Full Conical Scan, Conical Sector Scan and Two-Point Techniques journal March 1985
How Long Is Long Enough When Measuring Fluxes and Other Turbulence Statistics? journal June 1994
Performance of Mean-Frequency Estimators for Doppler Radar and Lidar journal October 1994
Effects of Wind Turbulence on Coherent Doppler Lidar Performance journal February 1997
Estimation of Velocity Error for Doppler Lidar Measurements journal October 2001
Estimating Spatial Velocity Statistics with Coherent Doppler Lidar journal March 2002
Wind Energy Meteorology: Insight into Wind Properties in the Turbine-Rotor Layer of the Atmosphere from High-Resolution Doppler Lidar journal June 2013
3D Wind and Turbulence Characteristics of the Atmospheric Boundary Layer journal May 2014
Measurements of Boundary Layer Profiles in an Urban Environment journal June 2006
Virtual Towers Using Coherent Doppler Lidar during the Joint Urban 2003 Dispersion Experiment journal August 2006
Doppler Lidar–Based Wind-Profile Measurement System for Offshore Wind-Energy and Other Marine Boundary Layer Applications journal February 2012
Quantifying Wind Turbine Wake Characteristics from Scanning Remote Sensor Data journal April 2014
Wind Measurements from Arc Scans with Doppler Wind Lidar journal November 2015
Representativeness of wind measurements with a cw Doppler lidar in the atmospheric boundary layer journal January 1995

Similar Records

Wind Measurements from Arc Scans with Doppler Wind Lidar
Journal Article · Tue Nov 24 23:00:00 EST 2015 · Journal of Atmospheric and Oceanic Technology · OSTI ID:1236155
An Integrated Approach To Offshore Wind Energy Assessment: Great Lakes 3D Wind Experiment
Technical Report · Mon Sep 18 00:00:00 EDT 2017 · OSTI ID:1390777

Related Subjects