Clipper Windpower
Subsidiary | |
Industry | Renewable Power |
Founded | 2001, State of Delaware |
Headquarters | Cedar Rapids, Iowa, United States |
Key people | Bob Loyd, CEO |
Products | Wind turbines |
Parent | Platinum Equity LLC |
Website | www.clipperwind.com |
Clipper Windpower is a wind turbine manufacturing company founded in 2001 by James G.P. Dehlsen.[1] It designed one of the largest wind turbines in the United States, manufactured in Cedar Rapids, Iowa. It was working collaboratively with the National Renewable Energy Laboratory.
Affected by a global recession, in December 2010 Clipper Windpower was acquired by United Technologies Corporation. It was sold in 2012 to Platinum Equity.[2] The company has reduced its manufacturing and is supporting its turbines.[3]
History
In September 2007 Clipper Windpower, based in Carpinteria, California, received an Outstanding Research and Development Partnership Award from the U.S. Department of Energy (DOE) for the design and development of its 2.5 MW Liberty Wind Turbine, one of the largest wind turbines manufactured in the U.S. at the time. The turbine was developed under a partnership with DOE and its National Renewable Energy Laboratory (NREL). It was manufactured in Cedar Rapids, Iowa.
Commercial sales started in June 2006 for the new Liberty turbine and (mostly contingent) orders for more than 5,600 MW (2,240 units) for deliveries in 2007 through 2011 were booked.[4] Clipper Windpower had an agreement with BP Energy to supply the 2.5 MW turbines for the proposed 5,050 MW Titan Wind Project in South Dakota. Among the projects completed with Clipper wind turbines is Steel Winds in Lackawanna, New York, south of Buffalo, where an urban wind farm was developed on part of a brownfield.
Emerging companies such as Clipper were among those adversely affected by a global recession in 2008 and 2009.
Acquisition by United Technologies
On December 10, 2009, Connecticut-based United Technologies Corporation announced that it would acquire a 49.5% stake in Clipper Windpower by purchasing 84.3 million new shares and 21.8 million shares from current shareholders for £126.5 million. Clipper said this equity purchase "will significantly strengthen its balance sheet and enable it to enhance its operations and pursue its strategic initiatives".[5][6][7] On 18 October 2010, UTC agreed with Clipper to acquire the rest of the company,[8] a transaction that was completed in December 2010 for a total cost of approximately $385 million.[9]
On March 15, 2012, United Technologies announced their intent to sell Clipper Windpower. CFO Greg Hayes described their 2010 acquisition as a "mistake".[2] United Technologies' sudden about-face is attributed to the fact that the windpower manufacturing company does not fit into their new aerospace-mostly business model.
Offshore wind energy turbine
In April 2008 Clipper Windpower announced plans to develop a large wind energy turbine in Blyth, Northumberland in the United Kingdom.[10] For use offshore, each turbine was designed to be rated at around 7.5 MW and would be roughly double the size of the largest turbines used in commercial offshore wind farms at that time (Siemens 3.6 MW turbine).[11] According to the British Wind Energy Association, electrical power for a city the size of Newcastle upon Tyne could be supplied by as few as 20 of the turbines.[12]
Clipper Windpower Marine had started construction of a 4,000 square metres (43,000 sq ft) offshore wind turbine blade manufacturing facility in Neptune Estate, Tyne in 2010. The factory would have been used to develop and build blades for the Britannia project, a 10 MW offshore wind turbine prototype under development by Clipper and scheduled for deployment in late 2012.[13] However, Clipper stopped development of the 10 MW in August 2011 after parent United Technologies deemed the financial crisis as too severe, and has paid £1.6 million of aid back to The Crown Estate.[14]
Other
The company discontinued manufacturing new turbines in Cedar Rapids in 2012.[3] Its manufacturing facility in Cedar Rapids is devoted to replacement parts for its Liberty wind turbine, as it had problems with a Brazilian supplier.[15]
A number of research labs are working to modify the Clipper wind turbine design. Navid Goudarzi et al. have worked on a novel multiple-generator drivetrain that proposes employing different rated generators.[16] [17] [18]
References
- ↑ "Clipper Chairman inducted into Environmental Hall of Fame", North American Windpower, 12 December 2008, Retrieved: 23 October 2010.
- 1 2
- 1 2 , The Gazette, 3 November 2012 Archived November 5, 2012, at the Wayback Machine.
- ↑ "Largest Wind Turbine Manufactured in U.S. Gets Energy Award", Industry Week
- ↑ "Clipper Windpower Gets GBP126.5 Million Investment From United Tech", CNN
- ↑ "Clipper says UTC to buy 49.5 percent stake", Reuters
- ↑ "United Technology flies to the rescue of Clipper Windpower" The Guardian, 10 December 2010
- ↑ UTC to acquire remaining interest in Clipper Windpower North American Windpower, 18 October 2010. Retrieved: 23 October 2010.
- ↑ United Technologies Corporation Annual Report (PDF), 2010, pp. 28–29, 61, retrieved May 12, 2011
- ↑ World’s largest offshore wind energy turbine to be developed in North England
- ↑ Wilkes, Justin. The European offshore wind industry - key trends and statistics 2009, EWEA, January 2010, p.4, Retrieved: 23 October 2010.
- ↑ realpower "12 OFFSHORE WIND: TREND TOWARDS SCALING UP", BWEA, p. 33
- ↑ "Clipper to construct wind turbine factory". New Statesman. Retrieved 22 February 2010.
- ↑ Andersen, Flemming Thestrup. Clipper drops giant turbine Penge.dk, 25 August 2011. Accessed: 29 September 2011.
- ↑ Cedar Rapids turbine manufacturing
- ↑ Navid Goudarzi, Wei dong Zhu (April 2013). "Offshore and Onshore Wind Energy Conversion: The Potential of a Novel Multiple-Generator Drivetrain". 569: 644–651.
- ↑ Navid Goudarzi (June 2013). "A Review on the Development of the Wind Turbine Generators across the World". International Journal of Dynamics and Control. Springer. 1 (2): 192–202. doi:10.1007/s40435-013-0016-y.
- ↑ Navid Goudarzi, Weidong Zhu (November 2012). "A Review of the Development of Wind Turbine Generators Across the World". ASME 2012 International Mechanical Engineering Congress and Exposition. ASME. 4 (Paper No: IMECE2012-88615): 1257–1265. doi:10.1115/IMECE2012-88615.