Offshore wind turbines (OWT) are currently designed and certified based on loads calculated in so called aero-servo-hydro-elastic simulation tools. Large sets of time domain simulations are run, especially in the certification process. In ADCoS-Offshore - the software used in this study - branched support structures are modeled with finite element (FE) beam members. These structures usually consist of hollow steel tubes connected by joints. As the representation of the joints using FE beam members is not too precise, ADCoS-Offshore was extended with a substructuring feature to model the joints more accurately. In this paper, a model of a 5MWOWT that includes a "basic" support structure model, and an OWT model incorporating superelements to ...
Provided the significant contribution of support structures to the capital expenditures of offshore ...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...
Fatigue design and certification of offshore wind turbines (OWT) is performed using aero-servo-hydro...
In aero-hydro-servo-elastic tools used for load simulations of offshore wind turbines (OWTs), the jo...
In aero-hydro-servo-elastic tools used for load simulations of offshore wind turbines (OWTs), the jo...
This paper presents the validation of ADCoS-Offshore, a newly developed design tool for simulation o...
Load simulations play an important role in the design, certification and optimization procedures for...
The scientific community is devoting more attention to the wide scope of offshore wind turbine struc...
Abstract This master thesis considers the strength analysis of the offshore wind turbine s jacket s...
This paper presents dynamic response and fatigue analyses of several bottom-mounted offshore wind tu...
Provided the significant contribution of support structures to the capital expenditures of offshore ...
This paper presents dynamic response and fatigue analyses of several bottom-mounted offshore wind tu...
Large scale offshore wind power has been recognized as a key technology to increase the share of ren...
Large scale offshore wind power has been recognized as a key technology to increase the share of ren...
Provided the significant contribution of support structures to the capital expenditures of offshore ...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...
Fatigue design and certification of offshore wind turbines (OWT) is performed using aero-servo-hydro...
In aero-hydro-servo-elastic tools used for load simulations of offshore wind turbines (OWTs), the jo...
In aero-hydro-servo-elastic tools used for load simulations of offshore wind turbines (OWTs), the jo...
This paper presents the validation of ADCoS-Offshore, a newly developed design tool for simulation o...
Load simulations play an important role in the design, certification and optimization procedures for...
The scientific community is devoting more attention to the wide scope of offshore wind turbine struc...
Abstract This master thesis considers the strength analysis of the offshore wind turbine s jacket s...
This paper presents dynamic response and fatigue analyses of several bottom-mounted offshore wind tu...
Provided the significant contribution of support structures to the capital expenditures of offshore ...
This paper presents dynamic response and fatigue analyses of several bottom-mounted offshore wind tu...
Large scale offshore wind power has been recognized as a key technology to increase the share of ren...
Large scale offshore wind power has been recognized as a key technology to increase the share of ren...
Provided the significant contribution of support structures to the capital expenditures of offshore ...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...
This paper presents dynamic response and fatigue analyses of several bottom‐mounted offshore wind tu...