Environmental Engineering Reference
In-Depth Information
[12] Gipe, P., IEC Wind Turbine Classes, Wind-Works.org. http://www.wind-works.
org/articles/IECWindTurbineClasses.html
[13] IEC 61400-1, WT Design requirements, DNV. http://www.dnv.com/industry/
energy/segments/wind_wave_tidal/world_class_standards/
[14] Riley, P.S., Personal communication, 9 February 2009, Value Engineering,
GE Global Research Energy Systems Laboratory, Niskayuna, NY.
[15] Lyons, J.P., CTO, Personal communication, LCoE for Electricity Generation
Alternatives, Novus Energy Partners, Spring 2008.
[16] Curran, R.,
et al.
, Integrating aircraft cost modelling into conceptual design,
Concurrent Engineering, Sage Publications, December 2005. http://cer.sagepub.
com/cgi/reprint/13/4/321.pdf
[17] CERA, Concurrent Engineering: Research & Applications. http://www.
ceraj.com/
[18] Powell, D.M., Personal communication, January 2009, Value Analysis, GE
Energy Wind, Greenville, SC.
[19] Walford, C.A., Global Energy Concepts, LLC, Wind turbine reliability:
understanding and minimizing wind turbine operation and maintenance costs,
Sandia Report, SAND2006-1100, March 2006. http://www.prod.sandia.gov/
cgi-bin/techlib/access-control.pl/2006/061100.pdf
[20] Wind Energy the Facts. http://www.wind-energy-the-facts.org/en/part-i-
technology/chapter-4-wind-farm-design/commissioning-operation-and-
maintenance.html
[21] Wojszczyk, B., Herbst, D. & Bradt, M., Wind generation implementation and
power protection, automation and control challenges, Power-Gen International,
December 11
13, 2007. http://modernpowerengineering.com/Resources_fi les/
Wind%20Generation%20Implementation%20and%20Power%20Protec-
tion%20Automationand%20Control%20Challenges-POWER-GEN%20
2007.pdf
[22] Pesetsky, D.S., Personal communication, January 2009, Blade Tip Closest
Approach to the Tower, GE Energy Wind, Greenville, SC.
[23] Germanischer Lloyd
−
Guideline for the certifi cation of wind turbines.
https://www.gl-group.com/wind_guidelines/wind_guidelines.php?lang=en
[24] Army-technology.com, M1A1 / M1A2 Abrams Main Battle Tank, USA.
http://www.army-technology.com/projects/abrams/specs.html
[25] Kuhn, M., Soft or stiff, a fundamental question for designers of offshore
wind energy converters.
Proc. of EWEC '97
, Dublin, Ireland, October 6
−
9,
1997, http://www.lr.tudelft.nl/live/pagina.jsp?id=01b3b117-df62-4cfe-af8b-
94327f86ef40&lang=en&binary=/doc/Soft%20or%20stiff_001.PDF
[26] Wang, J., Personal communication, April 2009, Mass & Cost Breakdown for
Typical GFRP Blades, GE Energy Wind, Greenville, SC.
[27] Savage, J.R. & Johnson, S.B., Personal communication, May 2009, GFRP
Blade Mold Cost & Life Factors, GE Energy Wind, Greenville, SC.
[28] Subramanian, P., Personal communication, March 2009, Bedplate & Space-
frame Structural Analysis, GE Energy Wind, Salzbergen, Germany.
[29] GET, GE drivetrain technologies unveils new wind drive train concept at
Husum, GE Transportation, 2008. http://www.getransportation.com/na/
−
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