You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
I am configuring a setup for a WindTurbine simulation, with precalculated aifoilpolars and contours.
I already know that this is possible through the validation studies made by Ed Alvarez.
For the WEA the suction and pressure side of the rotor need to be reversed compared to the classical case. But would this mean I also need to inverse the calculation of lift or C_l?
You see I am encountering some issues because I am not yet completely familiar with the calculation process in the rVPM.
Before diving into it I wanted to check if someone has already successfully put FLOWUnsteady in "Power generation" mode and can pinpoint at what locations I need to make adjustments or if there are already implemented parameters that adjust the solver to this.
reacted with thumbs up emoji reacted with thumbs down emoji reacted with laugh emoji reacted with hooray emoji reacted with confused emoji reacted with heart emoji reacted with rocket emoji reacted with eyes emoji
-
Hello everyone,
I am configuring a setup for a WindTurbine simulation, with precalculated aifoilpolars and contours.
I already know that this is possible through the validation studies made by Ed Alvarez.
For the WEA the suction and pressure side of the rotor need to be reversed compared to the classical case. But would this mean I also need to inverse the calculation of lift or C_l?
You see I am encountering some issues because I am not yet completely familiar with the calculation process in the rVPM.
Before diving into it I wanted to check if someone has already successfully put FLOWUnsteady in "Power generation" mode and can pinpoint at what locations I need to make adjustments or if there are already implemented parameters that adjust the solver to this.
Thank you and best regards
Beta Was this translation helpful? Give feedback.
All reactions