NASA OpenVSP modeling and analysis tutorial
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- Опубликовано: 3 июл 2024
- #aeronautical #engineering #aerospace #UAV #drones #aircraftdesign
Introductory tutorial to set up the geometry and running an aerodynamic simulation (VLM and parasitic drag calculation) of your aircraft model.
Very usefull thanks!
It would be really helpful if u could touch more upon the results of the various graphs that are relevant to aircraft conceptual design... Like the one u said about elliptical curve and positive slope for Cl v Cd...
Thanks for the feedback! I will make another video about it.
I tried to take parasite drag of a wing alone and I couldn't able to obtain the values could you please help me
Hi, this was really helpful, thank you very much.
I will make an opimization between wing volume and fuselage volume in order to reach some desired objectives.
I'm considering to use OpenVSP for geometrical changes.
What is the easiest way to change gepmetrical parameters automatically in OpenVSP?
For example, let's say that the chord length and span will change such that Cl/Cd would be the greatest?
Where can I reach you, if you are willing to help?
Thank you so much in advance!
you're building something ?
Hi . When I run VSPAERO launch solver . Results are not shown and graph appears to be blank. Some options are grey . What should I do
Hi again,
I have a question: In VSP Aero, Mach number was set as 0. But after the graphs are plotted, we see that a Mach number is evaluated based on the altitude and flow velocity given. Why inserting M=0 in variables do not create a problem? (We only varied alpha and inserted 0 as M, but M did not stay as zero.)
M=0 is for the aircraft speed but the flow velocity can be from airspeed and not the aircraft speed. For example, if the wind gust is 100km/h, that is some flow velocity. It makes sense if the Mach is not equal to zero if the boundary conditions is not properly defined.
Thanks for the tutorial, with that data, how to calculate the engine hp?
For piston aircraft - drag / 2.5 = average required h.p
Yang sayang aku like yang cinta allah coment.
allah allah
If you need to visualize basic aerodynamics exporting STL on the fastest algorithm: Fluidx3D ruclips.net/video/Gd_MEHPecw0/видео.html