luckysasa.blogg.se

Transport and installation concept on YouTube. This will be just the latest project completed during the long-term collaboration between the University of Rostock and the GICON Group. To achieve the stated objective and make efficient use of the available resources, the project will involve a very close collaboration between the University of Rostock and GICON. The floating platform is held in position by vertical tendons (also called tethers) which are. 15.4.Unlike the spar type which needs to be assembled offshore, this TLP wind turbine may be assembled and commissioned onshore, thereby avoiding the logistical difficulties of offshore assembly. This work will focus both on the development of the local offshore wind energy sector and the relevant supply industries within the state of Mecklenburg-Western Pomerania and on the establishment of a product for the international market that is “Made in Mecklenburg-Western Pomerania”. The TLP type comprises a floating foundation (platform) to carry the wind turbine as shown in Fig. The creation of the aero-servo-hydro-elastic simulation, including the draft design, falls within the remit of the Chair of Wind Energy Technology at the University of Rostock. The GICON Group, will implement the basic design in compliance with the BSH construction standard for wind turbines. To implement the support structure it will be necessary to construct it of a composite material consisting of concrete and/or fibre concrete and steel or of fibre concrete by itself. GICON in Germany with GICON-SOF 1,26, the American Glosten Associates with PelaStar 1,15, Iberdrola with TLPWind 1,27, and. Another objective is the development of reinforced concrete or light-weight concrete components for substructure pre-tensioning. The scientific-technical project objective is the development of a novel structural framework made of heavy-duty and durable structural components suitable for light-weight construction methods. At this meeting, nine experienced engineers and three technical specialists discussed the technical aspects of the project and detailed the next stages of the project. This was the background to the kick-off meeting for the new collaboration and research project held between GICON group and the University of Rostock in Stralsund on 26 April 2016. described using the example of the TLP developed by GICON, and the LCOE is calculated. This funding, which amounts to almost 1 million euro for the affiliated partners GICON Group and the Department of Wind Energy Technology at the University of Rostock will provide the financial security required for the development and crucial trialling of a third-generation substructure for wind turbines generating 6 MW and above. Cost comparison of fixed and floating foundation concepts 3. 46 compared TLP and taut leg buoy concepts supporting 35 MW wind. The official funding commitment for the development of an offshore wind turbine foundation made of a reinforced concrete composite elements was granted by the state of Mecklenburg-Western Pomerania. Measurements of dynamic responses of a scaled floating foundation model in a wave.