Siemens Gamesa Renewable Energy, S.A., born in 2017 as the merger of
Siemens's Wind Power Division with Gamesa Corporación Tecnológica, S.A., is a Spanish-German
wind engineering company based in
Zamudio,
Biscay,
Spain. In Spain, the company has two other main sites in Spain: one in
Madrid and the other one in
Sarriguren. Other than its headquarters, its onshore business is primarily based in Spain, while the offshore business is based in Germany and Denmark. It is the world's second largest
wind turbine manufacturer behind
Vestas.[2]
The company is notable for its SG 14.0-222 wind turbine, the largest variant based on the
Siemens D7 platform [
de], as well as being the largest wind turbine in the world. Its main competition will be the
General Electric Haliade-X and the
MHI-Vestas V164.[3]
History
Gamesa Corporación Tecnológica
Gamesa began operations in 1976 as Grupo Auxiliar Metalúrgico S.A., focused at that time on developing new technologies and applying them to emerging activities. These included
robotics,
microelectronics,
aeronautics and the development of
composite materials. It was founded by Juan Luis Arregui and Joseba Mikel Grajales.[4]
In 1994, Gamesa Eólica was created as a subsidiary specializing in the manufacture of wind turbines. The company became involved in the development, construction and operations of wind farms in 1995 and completed its first wind farm the following year. Gamesa had a 7-year partnership with
Vestas that ended in 2002.[5]
The corporation was officially listed on the stock exchange on 31 October 2000 and joined the selective
IBEX 35 on 24 April 2001. In 2002, Gamesa acquired gearboxes manufacturer Echesa, generators manufacturer Cantarey, and converters manufacturer Enertrón.[6]
Since 2006, the company has focused on technologies associated with
sustainable energy, principally
wind power. It has divested of its interests in aeronautics, which were sold off to form a new company known as Aernnova, and in services, which were sold off to form a new company known as Global Energy Services.[7]
As part of the
United Kingdom's move to expand its production of offshore wind energy production, Gamesa has committed to the expenditure of £133.7 million on a production factory and other facilities in the UK, and will also move its offshore wind division headquarters to London.[8][9]
In January 2014, Gamesa and French nuclear manufacturer
Areva announced a preliminary deal to create a joint venture
Adwen in the offshore wind power business.[10]
In early 2015 Gamesa continued its expansion of UK services by acquiring B9 Energy.[11]
History of Siemens Wind Power A/S started in 1980, when Danish irrigation system manufacturer Danregn diversified into the wind turbine business. Its first wind turbines were machines with rotor diameters of around 10 m (33 ft) with generator powers of 20 to 30 kW (27 to 40 hp).[14][15][16] In 1981, the wind activities were separated into newly established company Danregn Vindkraft A/S, established by Peter Stubkjær Sørensen and Egon Kristensen in
Brande, Denmark, with a capital of 300,000
kroner; the company's product was a 55 kW (74 hp), 15 m (49 ft) blade diameter turbine.[14][16][17][18]
The company changed its name from Danregn Vindkraft to Bonus Energy in 1983, an easier name for the English speaking North American market.[15][19]
In 1991, eleven 450 kW Bonus turbines were installed in the
Vindeby Offshore Wind Farm, the first offshore wind farm in the world.[20][21]
The company sourced its first blades from
Viborg based company Økær Vind Energi.[22] Later it sourced blades from
LM Wind Power. In the late 1990s Bonus began to develop its own blades, beginning production in the early 2000s in
Aalborg.[23][note 1]
Bonus A/S was sold to Siemens AG in 2004.[24] The sales and project management headquarters moved to
Hamburg,
Germany in May 2009.[25]
In 2006, Siemens acquired a former
LM Glasfiber wind turbine blade factory in
Engesvang, Denmark.[26] In 2007, it constructed a blade factory in
Fort Madison, Iowa, United States.[27] A hub factory in
Ølgod began production in 2008.[28] A
nacelle manufacturing plant was opened in
Hutchinson, Kansas in December 2010.[29][30] Additionally Bonus Energy sales and service partner company AN Windenergie GmbH in
Bremen (Germany) was acquired in 2005.[27][31]
In mid-2008 the company began testing of development prototypes of
direct drive wind turbines; units based on the geared SWT-3.6–107 were installed in 2008 with a permanent magnet generator directly replacing the gearbox and alternator;[32][note 2] Successful tests led to development of a new production design by 2009.[34] A prototype of the new direct drive design, an
IEC 61400 wind class IA, 3 MW machine (SWT 3.0–101 DD) was installed near Brande, Denmark in 2009.[34][35] The 3 MW design was launched as a product in April 2010 and significantly reduced complexity (half the components)[36] and lower nacelle weight than earlier 2.3 MW designs.[37] A 2.3 MW version for lower wind speeds (SWT-2.3–113) was launched in 2011.[38]
A factory established in
Linggang (Siemens Wind Power Blades (Shanghai) Co., Ltd.) near the
Yangshan Deep Water Port began production in 2010.[42] Additionally in December 2010 Siemens announced it would install a blade factory at an existing unused facility in
Tillsonburg, Ontario, Canada.[43] In early 2011 Siemens and
ABP announced the development of a £210 million turbine assembly plant, and dock development at
Alexandra Dock, in
Kingston upon Hull, UK.[44][45]
In May 2011 testing began of a prototype 6 MW direct drive design with a 120 to 154 m (394 to 505 ft) rotor, the design was launched as a product in November 2011.[46] In 2013 Siemens announced a development of its 3.6 MW design, the SWT 4.0–130 which used a rotor of diameter 130m with 4 MW rated power. At the same time the company introduced new product platform codes for its products, with 'G' indicating geared drive, and 'D' indicating direct drive, suffixed by a number indicating an approximate power class. The four initial product ranges were Siemens G2, G4, D3 and D6.[47]
In July 2012, the company agreed to supply
DONG Energy with 300 direct drive, 75m blade, 6 MW SWT-6.0–154 turbines for the English offshore market from 2014. Two turbines are to be installed for testing at the
Gunfleet Sands offshore wind farm.[48] The value of the contract was estimated at over £2 billion.[49][50] Prototype 6 MW machines were installed at the
Gunfleet Sands 2 wind farm in 2013;[51] with the first full scale commercial installation of 6 MW machines at the 210 MW
Westernmost Rough wind farm in 2014.[52]
In September 2012 Siemens Wind announced the lay off of 615 of a workforce of around 1650 workers in the United States, citing reduced demand for wind turbines due to uncertainty concerning future tax break incentives in the US for wind power.[53] (see
United States Wind Energy Policy.)
In March 2014 Siemens and
Associated British Ports (ABP) finalised the 2011 MOU to build a turbine factory in Hull, UK (
Green Port Hull), and announced an additional facility near
Paull, East Riding of Yorkshire, east of Hull which would manufacture rotor blades for turbines.[54][55] In 2014 the planned factory at Paull was abandoned, with all production to be concentrated at the Alexandra dock site.[56] Revised plans for the site submitted April 2015 included only a blade manufacturing factory at the site with no nacelle production.[57]
In 2015 Siemens upgraded its 6 MW offshore design to a rated 7 MW power with a larger permanent magnet generator,[58] and further to 8 MW in 2016.[59] The first order for the 7 MW design was awarded in October 2015 for 47 turbines in the
Walney 3 offshore.[60]
In early 2015 Siemens announced it had reached agreements to build 2 GW of wind turbines in
Egypt, and to construct a blade factory in that country, as part of a larger power generation agreement.[61][62] The €8 billion, 16.4 GW energy development deal was signed in June 2015, including an approximate 1000 worker blade factory in
Ain Soukhna and 12 wind farms (600 turbine, 2 GW) in the
Gulf of Suez and west
Nile areas of Egypt.[63]
In August 2015 Siemens announced it was to construct a new nacelle manufacturing plant at
Cuxhaven, Germany, an investment of £200 million. The plant was expected to become operational mid 2017, and employ 1000 people.[64][65] A€100 million blade plant to be built in the
Tanger Automotive City (near
Tanger-Med port) in
Morocco was announced in early 2016.[66][67]
In February 2017 Siemens announced the closure of the Engesvang blade factory (Denmark), with the loss of 430 jobs, citing the plants inability to produce larger size blades.[68][69]
Merger
On 17 July 2016 Siemens and Gamesa announced their plan to merge their wind businesses, with the 59% stake of Siemens and the 41% stake of former Gamesa shareholders in the resulting company. Siemens paid €1 billion cash for its stake in Gamesa. The resultant company was headquartered in Spain, with an offshore operations headquartered in Hamburg, Germany and Vejle, Denmark. The combined business was the largest wind turbine manufacturer worldwide by installed capacity (~69 GW).[70][71] The merger became effective on 3 April 2017.
Post-merger
In 2018, Siemens Gamesa won the wind turbine supply contract for the largest offshore wind farm in the world. It is a project of the Danish group Ørsted located in English waters, specifically 89 kilometers from the east of the coast, in which it will also carry out maintenance, and will install its SG 8.0-167 DD model turbines, with a total capacity of 1,386 MW. In the company's history, it is the largest project, ahead of Hornsea One (1,218 MW), also developed by Ørsted.[72]
In 2018, Taiwanese manufacturer Swancor began supplying wind turbine resin to Siemens Gamesa.[73][74]
In 2019, Siemens Gamesa agreed to purchase
Senvion's European service fleet for €200 million ($222 million).[75] On 18 May 2021, the
CNMV suspended Siemens Gamesa from trading while it considered a delisting.[76]
In 2022, Siemens Gamesa began partnering with Taiwan-based green material producer Swancor Holding Co., and signed an agreement to install 3GW of offshore wind power in Taiwan.[74]
In March 2023 a prototype was producing power.[102] Serial production is expected for 2024. It is estimated that the turbine may be able to reach 15MW, using power boost.
Operations
Siemens Wind has
R&D, and production facilities in
Brande,
Denmark. Blade production is located in Aveiro (Portugal), Aalborg (Denmark), Tanger Automotive City (Morocco), Linggang (China), Fort Madison, Iowa (USA) and Tillsonburg, Ontario (Canada); with factories under construction or planned (2016) for Kingston upon Hull (UK) and Ain Soukhna (Egypt).
By 2018, the hub factory in Ølgod was moved to the production in Brande.
Other established production sites included nacelle manufacture at Hutchinson, Kansas (USA, 1.6 GW).[103] As of 2018 the new offshore nacelle plant has been opened at Cuxhaven (Germany). Another offshore nacelle plant opened in Taiwan in 2021.[104]
^Grove-Nielsen, Erik.
"Økær Vind Energi 1977 – 1981". windsofchange.dk. Retrieved 27 September 2012. Økær Vind Energi delivered the first 5 m blades for Bonus in December 1980 – for their prototype. At that time the company name was Danregn Vindkraft A/S
Brauer, Niels (9 March 2008).
"Albert og vingefabrikken". nordjyske.dk (in Danish). Archived from
the original on 31 January 2016. Retrieved 24 January 2013.
^Pringle Brandon Perkins + Will; Blue Sky Planning,
"Siemens Green Port Hull Alexandra Dock, 30 March 2015, Planning and Design and Access Statement"(PDF), (15/00393/RES) Demolition of buildings and erection of new buildings (including part of a single building of 22.476m high; 73' 9") for the manufacture of wind turbine blades and the assembly, maintenance, storage and distribution (Use Class B1, B2 and B8) of wind turbine components [...] (planning application), Hull City Council, §01.1–01.2, pp.6–7, retrieved 21 April 2015[permanent dead link]
^The blade factory in Aalborg was established in part due to local experience in construction with fibreglass, as used at the
Danyard Aalborg shipyard in construction of the
Flyvefisken class patrol vessel.[23]
^The quantity of permanent magnet material used in the generator has been estimated at around 2
tonnes.[33]