Siemens Gamesa Renewable Energy (SGRE) has now fully implemented its offshore logistics concept announced in late 2015. Sea transportation and roll-on, roll-off (Ro/Ro) offloading are key in Siemens’ offshore concept.
Compared to the former set-up, including road transportation and crane loading, SGRE says it has significantly increases safety while saving approximately 20% in logistics costs. The concept is aligned to the offshore cost-out measures as part of the business strategy presented by Siemens Gamesa at the Capital Market Day in February.
One key element of this advanced transport solution is the efficient link between Siemens Gamesa’s offshore production locations in Cuxhaven, Germany, and Hull, England, provided by two purpose-built transport vessels. Another is the new process of loading and unloading these ships.
So, instead of lifting tower sections of up to 200 metric tons and nacelles weighing around 400 tons by crane, the large and heavy components are rolled on and off of these vessels, using the Ro/Ro process.
The Ro/Ro process
SGRE initially used this method inside its plants for many years. Based on this experience, the company’s experts further refined the concept together with deugro, an international forwarder in the capital project and heavy lift field. Tailor-made transport frames are used to store and move the nacelles. These transport structures are mounted under the bedframe of the nacelles, and can be carried by Self-Propelled Modular Transporters (SPMTs). These self-lifting, motorized units feature a large array of wheels, and are remotely controlled by experienced operators.
The two special transport vessels, each with a length of about 140 meters, are also operated by deugro Danmark A/S exclusively for Siemens Gamesa. The Rotra Vente, which has now been loaded in Cuxhaven can transport eight nacelles of the current Siemens Gamesa direct-drive turbine at a time.
The second vessel, the Rotra Mare, accommodates three complete wind turbine towers of three sections each or up to 12 rotor blades and transports them from the production facility in Hull, England, or from Aalborg, Denmark, to the respective installation port. Both vessels can also be unloaded by crane if required. This enhances the flexibility of the installation ports, which are selected according to project-specific requirements. Currently both ships use the Ro/Ro capabilities of the harbors on their routes between the UK, Denmark, and Germany to the Rentel installation port in Ostend, Belgium.
Since inauguration in November 2016 the two transport vessels are well integrated into SGRE’s value chain: More than 130 voyages have been made. Both ships have delivered components for more than 250 wind turbines to eight different offshore wind power plants. Thanks to Ro/Ro loading, more than 2,000 lifts has been mitigated.
“As our manufacturing footprint and logistics concepts continue to mature, we make additional progress on lowering the Levelized Cost of Energy for offshore wind,” states Andreas Nauen, CEO Offshore at Siemens Gamesa Renewable Energy. “We’re able to deliver these components more safely and more efficiently by eliminating crane lifts. The experiences we have made over the last month confirm that the expected savings of up to 20 percent in logistics costs compared to traditional transport procedures will be fully met.”
Over the next weeks, Siemens Gamesa will provide all 42 SWT-7.0-154 turbines for the Rentel offshore wind power plant. They will be preassembled and installed together with the towers and nacelles from the recently opened installation facility in the Belgian harbor of Ostend. SGRE will also service the Rentel offshore power plant from Ostend, where a service office with an additional 300 square meters of storage is currently under construction.
Full commissioning of the Rentel project is expected later this year. The Cuxhaven nacelle plant will deliver the nacelles to the 588-MW Beatrice wind-power plant and the 1,218-MW Hornsea One project, both of them located in the British North Sea.
Filed Under: News, Offshore wind, Projects