Dynamic Soil-Structure Interaction issues in designing offshore wind turbines
Bhattacharya, S (2012) Dynamic Soil-Structure Interaction issues in designing offshore wind turbines In: Proceedings of International Symposium on Coastal and Offshore Geotechnics, 2012-11-16 - 2012-11-18, Hangzhou.
Download (721kB) | Preview
Choosing appropriate foundations for supporting offshore wind turbines is one of the uncertainties in the future rounds of offshore wind power development. Offshore wind turbines are dynamically sensitive structures as the global natural frequency of the whole system is very close to the forcing frequencies (due to the environmental loads and the associated frequencies due to the rotor). This particular aspect is important for designing foundations for Round 2 and Round 3 offshore wind farms in the UK. It must be mentioned here that monopile foundations have been commonly used to support offshore wind turbine generators (WTGs), but this type of foundation encounters economic and technical limitations for larger WTGs in water depths exceeding 30m. Therefore offshore wind farm projects are increasingly turning to alternative multipod foundations (for example tetrapod, jacket, tripods) or on shallow foundations to reduce the environmental effects of piling noise. However the characteristics of these foundations under dynamic loading or long term cyclic wind turbine loading are not fully understood. This keynote lecture summarizes the results from a series of scaled model tests of the overall wind turbine system (including the foundations).
|Item Type:||Conference or Workshop Item (Keynote)|
|Divisions :||Faculty of Engineering and Physical Sciences > Civil and Environmental Engineering|
|Date :||16 November 2012|
|Additional Information :||Paper presented at the International Symposium on Coastal and Offshore Geotechnics, Hangzhou, 16 Nov 2012 - 18 Nov 2012|
|Depositing User :||Symplectic Elements|
|Date Deposited :||25 Feb 2014 12:24|
|Last Modified :||09 Jun 2014 13:39|
Actions (login required)
Downloads per month over past year