Abstract The main objective of this article is to present the results gathered during the commissioning of a new ice-free cup anemometer developed at Universite Laval. These tests took place at the Wind Energy Institute of Canada (WEICan) between January 2011 and April 2011, whereby icing events occurred and through the observations in this paper will show the need for ice-free anemometers in the wind industry in cold climates. Unbiased wind measurements cannot be obtained without ice-free anemometers. At such sites, the use of unheated wind speed sensors during the resource assessment phase leads to higher uncertainty of the wind speed. The use of properly heated anemometers can reduce wind speed measurement uncertainty, thus reducing financial uncertainty. A crude estimation of the financial losses based on the number of icing hours and the number of installed MW is also proposed. Caution should be exerted when choosing and installing ice-free instruments. Under specific conditions, improperly heated anemometers can lead to less accurate wind measurements than unheated anemometers. Wind turbines safe operation could be jeopardized with the use of improperly heated anemometers.
[1]
Lasse Makkonen,et al.
Anemometry in Icing Conditions
,
2001
.
[2]
Jean Perron,et al.
Behaviour and Modeling of Cup Anemometers under Icing Conditions
,
2005
.
[3]
Thomas J. Lockhart.
Anemometer performance determined by ASTM methods
,
1987
.
[4]
H. Seifert,et al.
Technical Requirements for Rotor Blades Operating in Cold Climate
,
2004
.
[5]
André Bégin-Drolet,et al.
Off-axis characterization of ice-free anemometers
,
2011
.
[6]
Ian Baring-Gould,et al.
State-of-the-art of wind energy in cold climates
,
2010
.
[7]
André Bégin-Drolet,et al.
Intelligent heating control of a new ice-free anemometer
,
2011
.