Geoscience Reference
In-Depth Information
Global Wind Energy Council (2011). Global wind report - annual market
update 2010,
Technical report
, Global Wind Energy Council. [Available
online at: http://www.gwec.net/fileadmin/images/Publications/
GWEC_annual_market_update_2010_-_2nd_ edition_ April_2011.pdf].
Greving, G. & Biermann, W.-D. (2008). Application of the radar cross section RCS for objects
on the ground - example of wind turbines,
2008 International Radar Symposium
,IRS,
Wroclaw, Poland.
Greving, G., Biermann, W.-D. & Mundt, R. (2009). RCS - numerical, methodological and
conceptional aspects for the analysis of radar distorting objects,
11th International
Radar Symposium
, IRS, Vilnius, Lithuania.
Greving, G. &Malkomes, M. (2006). On the concept of the radar cross section RCS of distorting
objects like wind turbines for the weather radar,
The Fourth European Conference on
Radar in Meteorology and Hydrology
, ERAD, Barcelona, Spain, pp. 333-336.
Greving, G. & Malkomes, M. (2008). Weather radar and wind turbines - theoretical and
numerical analysis of the shadowing effects and mitigation concepts,
The Fifth
European Conference on Radar in Meteorology and Hydrology
, ERAD, Helsinki, Finland.
Haase, G., Johnson, D. & Eriksson, K.-Å. (2010). Analyzing the impact of wind turbines
on operational weather radar products,
The Sixth European Conference on Radar in
Meteorology and Hydrology
, ERAD, Sibiu, Romania, pp. 276-281.
Hafner, S., Reitter, R. & Seltmann, J. (2004). Developments in the DWD radarnetwork,
The Third European Conference on Radar in Meteorology and Hydrology
,ERAD,Visby,
Sweden, pp. 425-427.
Hood, K. T., Torres, S. M. & Palmer, R. D. (2009). Automatic detection of wind turbine clutter
using doppler spectral features,
34th Conference on Radar Meteorology
,American
Meteorological Society, Williamsburg, VA. Paper P10.1.
Hood, K., Torres, S. & Palmer, R. (2010). Automatic detection of wind turbine clutter for
weather radars,
Journal of Atmospheric and Oceanic Technology
27: 1868-1880.
Høye, G. (2007). Electromagnetic shadow effects behind wind turbines,
FFI Report FFI/
RAPPORT-2007/00842
, NorwegianDefence Research Establishment. [Avaiable online
at http://rapporter.ffi.no/rapporter/2007/00842.pdf].
Hutchinson, G. & Miles, R. (2008). The protection of weather radar networks. the UK
experience,
The Fifth European Conference on Radar in Meteorology and Hydrology
,
ERAD, Helsinki, Finland.
Isom,B.M.,Palmer,R.D.,Secrest,G.S.,Rhoton,R.D.,L.,D.S.T.,Allmon,Reed,J.,Crum,T.&
Vogt, R. (2009). Detailed observations of wind turbine clutter with scanning weather
radars,
Journal of Atmospheric and Oceanic Technology
26: 894-910.
Jago, P. & Taylor, N. (2002). Wind turbines and aviation interests — European experience and
practice,
Department of Trade and Industry report ETSU W/14/00624/REP
,STASYSLtd.
Keeler, R. J. & Serafin, R. J. (2008). Meteorological radar,
in
M. Skolnik (ed.),
Radar Handbook
,3
edn, McGraw-Hill.
Kent, B. M., Hill, K. C., Buterbaugh, A., Zelinski, G., Hawley, R., Cravens, L., Tri-Van, Vogel, C.
& Coveyou, T. (2008). Dynamic radar cross section and radar Doppler measurements
of commercial general electric windmill power turbines part 1: Predicted and
measured radar signatures,
IEEE Antennas Propagation Magazine
50: 211-219.
Kong, F., Zhang, Y., Palmer, R. & Bai, Y. (2011). Wind turbine radar signature characterization
by laboratory measurements,
Radar Conference (RADAR)
, IEEE.
