Floating Offshore Spar Wind Turbine in Ansys Aqwa - from a sketch to numerical model
A tutorial for designing a Floating Offshore Wind Turbine using a Spar hull. It starts with hull calculations in Excel spreadsheet and ends with the numerical hydrodynamic model in Ansys. Storm wave conditions are applied for demonstration.
The instructions include a 100 m long Spar hull design, a 5 MW WTG with 100 m hub height, the catenary mooring system made of chain and polyester sections, the power cable, the 3D CAD model, the hydrodynamic response in frequency domain and the solution for a storm condition in time domain.
0:00 Intro
1:50 Excel - Sketch and hull calculations
11:00 Excel - Mooring system
16:11 CAD - 3D model in Spaceclaim
22:55 AQWA - Hydrodynamic system setup
34:00 AQWA - Hydrodynamic response
37:08 AQWA - Time domain, Stability check
40:02 AQWA - Time domain, Storm waves
46:16 AQWA - Time domain, Ressonance in heavy storm waves
Видео Floating Offshore Spar Wind Turbine in Ansys Aqwa - from a sketch to numerical model канала Xavier
The instructions include a 100 m long Spar hull design, a 5 MW WTG with 100 m hub height, the catenary mooring system made of chain and polyester sections, the power cable, the 3D CAD model, the hydrodynamic response in frequency domain and the solution for a storm condition in time domain.
0:00 Intro
1:50 Excel - Sketch and hull calculations
11:00 Excel - Mooring system
16:11 CAD - 3D model in Spaceclaim
22:55 AQWA - Hydrodynamic system setup
34:00 AQWA - Hydrodynamic response
37:08 AQWA - Time domain, Stability check
40:02 AQWA - Time domain, Storm waves
46:16 AQWA - Time domain, Ressonance in heavy storm waves
Видео Floating Offshore Spar Wind Turbine in Ansys Aqwa - from a sketch to numerical model канала Xavier
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
![Suzuki Bandit GSF 400 1992](https://i.ytimg.com/vi/Fo1M86q-sw8/default.jpg)
![Semi-sub Floating Wind Turbine Ansys Aqwa hydrodynamic model](https://i.ytimg.com/vi/9FvVYCm_fsw/default.jpg)
![Usina de ondas do Pecém - junta universal da bóia funcionando](https://i.ytimg.com/vi/YWQIxGgD9xM/default.jpg)
![Ansys WB Mechanical bonded plates material damage](https://i.ytimg.com/vi/Jd0IYFSOv9A/default.jpg)
![Ansys Mechanical bonded plates adhesion failure](https://i.ytimg.com/vi/OD2G9EtEZ1g/default.jpg)
![Abaqus FEA analysis of collapsed polymeric pipe installation as an internal liner](https://i.ytimg.com/vi/2HWS0EEQ5ac/default.jpg)
![Abaqus simulation of collapse and bending of polymeric pipe](https://i.ytimg.com/vi/ZOknOc9x9nU/default.jpg)
![ANSYS AQWA hydrodynamic simulation of Wave Energy Converter](https://i.ytimg.com/vi/kD9vgiyPdHA/default.jpg)
![ABAQUS Reel lay Offshore pipe installation method - bending and rectification of sandwich pipe](https://i.ytimg.com/vi/LsGMljHWFeM/default.jpg)
![ABAQUS FEA wave energy mechanical simulation](https://i.ytimg.com/vi/J_y5MUCkoE4/default.jpg)
![Wave Energy - Usina de ondas do Pecém - Solidworks](https://i.ytimg.com/vi/9aoiXc8a4ug/default.jpg)
![ABAQUS collapse of sandwich pipe cross section](https://i.ytimg.com/vi/dyHzbyM00P4/default.jpg)
![ABAQUS FEA subsea pipe collapse propagation and cross-over simulation](https://i.ytimg.com/vi/Z1KqELB4dVg/default.jpg)
![Gopro Surf Recreio tubo na cabeça](https://i.ytimg.com/vi/y3908oiy-LY/default.jpg)
![Gopro Surf em Grumari](https://i.ytimg.com/vi/njQg_c1bJfE/default.jpg)
![Brian y Sofi Skate Film: Mar del Plata skate park (La Plazoleta del Skate)](https://i.ytimg.com/vi/_GH501Flxhs/default.jpg)
![Gopro Surf na Macumba](https://i.ytimg.com/vi/lDAd4f6mcH4/default.jpg)
![Surf: Raigada na merreca do Recreio](https://i.ytimg.com/vi/rtqnnOvBI9I/default.jpg)
![Surf: Junção da merreca no Recreio](https://i.ytimg.com/vi/2ua6ub8xpJE/default.jpg)