Supplying the Offshore Wind Turbine Industry

The offshore wind energy industry is set for a boom over the next ten to twenty years. The UK’s round 3 of offshore development saw the crown estate award licenses to various wind power firms to develop wind farms at several sites around the UK; with the ambitious target of achieving 32GW of power (roughly a quarter of UK demand) by the year 2020. It is a rapid expansion plan that is echoed throughout Europe as governments strive to reach renewable energy targets.

In most industries knowledge and experience lead to reduced costs and streamlined supply chains. This is not necessarily to be expected when it comes to the offshore wind industry. It is in such an early stage of development, and as each project goes further out to sea and encounters fresh problems, so the learning curve continues. Best practice is not within reach for the offshore wind industry as yet, so it is still very much a project-by-project experience.


Overcoming the hurdles in the supply chain and procuring the raw materials, skills, transportation and logistics is a significant challenge for the companies tasked with realizing these large projects. Many such projects will be financed by banks or private investment, and there is a need to demonstrate reduced risk to investors.

As new large players enter the market, such as the USA and China, the demand for finite resources like steel will increase, and there is a great deal of uncertainty over the cost and supply of such materials. The spike in demand for materials to produce turbines, blades, towers and foundations is matched by the demand for new manufacturing facilities, ports and harbours to deal with the increased traffic, and suitable vessels to transport, install and service the wind farms.

Installation Vessels

One of the most pressing issues is the lack of vessels currently available for installation of wind turbines. EWEA (European Wind Energy Association) estimates that there is a need for twelve dedicated offshore wind turbine installation vessels, to achieve its own targets of 40GW in Europe by 2020. Currently the only two vessels able to install turbines at depths greater than 30 metres are the MPI resolution and the Kraken.

MPI is a world leader in the construction of Wind Turbine Installation Vessels (WTIV) and in March this year took delivery of its new vessel, the MPI Adventure in Qidong, China. The vessel is specifically designed to transport, lift and install wind turbines and foundations. Upon arrival in European waters, the Adventure will assist with installation of the London Array wind farm project off the Thames estuary. She has a 1,000 tonne capacity main crane, as well as a 50 tonne capacity auxiliary crane. She can operate at depths of up to 40 metres, and can jack with anything up to 6,000 tonnes of cargo. Additionally there is accommodation onboard for 112 people.

There are several deepwater installation vessels in design or construction that will further the capacity to install the amount of turbines required to meet wind energy targets. One such project is Gaoh Offshore’s Deepwater Installer 1 vessel (pictured below). Designed to operate year round, the vessel can carry and install up to 16 turbines, based on the Siemens 3.6MW turbine design. She will be able to operate in depths of up to 50 metres using a jack up system, and has been designed to minimize the cost of turbine installation. She will incorporate a 1,600 tonne SWL round leg crane for loading and installation, and a 1,000 tonne SWL floating crane operational capability. In terms of storage, she will boast 5.500 square metres of cargo area, with a main deck loading of 10 tonne per square metre. There will be accommodation for 120 people onboard.

Several energy utility companies have indicated that a limited number of suppliers and competition with the oil and gas industries for vessels means that the procurement of suitable installation vessels is one of the biggest challenges in the wind energy industry today. This shortage must be resolved over the next few years if targets for 2020 are to be reached.

The signs are good in this particular sector, as around £860 million was invested into installation vessels in 2010. By comparison, one area of concern is the HVDC/Cable connection sector, which saw just £36 million of investment during last year.

Cable suppliers

One cable supplier, JDR cables, opened a base in Hartlepool, UK, in 2009; and JDR has been awarded the contract to supply cables to the London Array project. The wind farm will have 177 turbines and when complete will be the largest offshore wind farm in the world. The project awarded to JDR involves the design, engineering and manufacture of some 200km of 3 phase 70mm 33kV subsea array cables, including hang off and termination systems. These cables will link the individual turbine generators to the offshore substations. JDR cables have experience in the field, having supplied the cabling for the Beatrice offshore wind farm project, and will aim to be one of the foremost suppliers to the European market for offshore wind farms over the coming years.

Another company looking to enter this market is the Korean company LS cable, who recently implemented a dedicated submarine cable factory to try and gain a share of the European offshore market. Already supplying cables to energy and telecommunications companies, it also has experience of manufacturing cables designed to be used offshore, which would be suitable for use with wind farms.

Skills and workforce

With such rapid expansion expected in the wind energy industry, a shortage of skills could prove to be a big stumbling block in development. Thousands of jobs will be created across Europe over the next ten years, from engineers and project managers, to mariners and welders.

One possible solution to the lack of qualified workers is for suppliers to follow the example set by the port of Bremerhaven in Germany. When redeveloping the harbour to supply the wind turbine industry, manufacturers and local authorities entered into partnership with local universities to develop training programs for the local population to ensure a skilled workforce was available. The Fachhochschule Bremerhaven became one of the first universities to develop a BSc graduate qualification in wind energy, and went on to offer an MSc masters degree in wind energy. Various training schemes and other initiatives were also put in place to ensure the workforce will be there to support the continued growth of the local industry.

Bremerhaven has embraced the wind energy industry and developed a harbor and industrial manufacturing area which can accommodate almost all contributors to the supply chain, while supporting the local population and economy through training and job creation.

Onshore construction

Purpose built harbours that can facilitate the construction of foundations and turbines at quayside are certainly the future of the wind energy industry. Reducing the cost of transportation and logistics by manufacturing the components in a location which enables easy access to installation vessels will reduce costs significantly.

Principle Power is one supplier that has taken this concept a step further with the Windfloat design; which is a turbine and foundation that can be entirely assembled and commissioned onshore before being towed out to sea. It is relatively compact and has a shallow draft, meaning it can be towed by a standard tug, and has no need for heavy lift cranes during installation, thus reducing costs further. It can be installed at depths greater than 30 metres and is stable enough to support turbines up to 10MW. Although at this stage none are installed, there are several projects in development both in Europe and in the USA.

Supplying the offshore wind turbine market and managing the supply chain is a delicate operation. There are several different industries that must complement each other for a project to run smoothly and efficiently. With the EU renewable energy targets driving rapid evolvement of the industry, each new project presents a variety of new obstacles to overcome. Slowly but surely the wind energy industry must gain valuable lessons from each installation and utilize that knowledge as best as possible to optimize the supply chain for the future.

Article by IQPC is a leading organizer of about 2,000 worldwide conferences, seminars, and related learning programs every year. The company is organizing the Wind Turbine Supply Chain Management Conference from 29 – 31 August, 2011 at the Mövenpick Hotel, Germany. Free whitepapers, articles and podcasts on wind supply chain management are available on the website.

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3 comments on “Supplying the Offshore Wind Turbine Industry

There is definitely going to be a boom in this technology over the coming years, it’s a wise thing to invest in for the planet.

It’s becoming increasinly apparent that this technology is needed more and more. Having it offshore eliminates the downside of ruining scenery, which is oh so important to some.

All the accrued benefits that the proposed Principle power floating turbine/foundations are already available with the TITAN 200 mobile self installing jack up turbine platform. Using well proven North Sea ‘jack up’ technology and experience, the whole thing, platform, tower and turbine etc assembled onshore then towed into position and installed like a jack up drilling rig. Been doing it for 40 years at these depths in N.Sea with no problems, same with this when it finally gets into the water, 6,7,8…10 MW’s no problem, in fact for jack up bigger the better. Ready to go now, UK round 3 Developers where are you ? To be competitive ( $5M ea platform, including installation ) Kit parts mass produced at low cost center and shipped to port areas for assembly.

Best Regards,

Colin Hardy,

Houston, Texas,

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