Aerodynamics: Recirculation Zone Wake and Speed

AI Thread Summary
Speed affects the recirculation zone and wake of blunt bodies like the Apollo during reentry, with Mach number and Reynolds number being critical parameters. Subsonic and transonic speeds tend to increase the length of the recirculation zone, while supersonic and hypersonic speeds generally decrease it. The discussion highlights the niche nature of this topic, suggesting that detailed answers are often found in specialized research rather than general forums. Invoking concepts like shock angles and viscous phenomena, the conversation emphasizes the importance of geometry and flow conditions in understanding these dynamics. Further independent research, particularly through academic papers, is recommended for deeper insights.
aero5682
Messages
18
Reaction score
0
How does speed effect the recirculation zone and wake for supersonic and hypersonic speeds? Does it get longer, wider?
Also this is for a blunt body like apollo reentering
 
Physics news on Phys.org
Speed is not directly relevant. Mach number and Reynolds number will be the most important parameters. You might start there with your search.
 
I thought I had searched for mach number, apparently I hadnt searched mach number or reynolds numbers effects on it. It seems like subsonically and transsonically mach number and reynolds number increase the length of the recirculation zone, and supersonically and hypersonically decrease the length, but nothing I found was very clear on it
 
You'll just have to keep up the search. I don't know any of the details of wakes like that to give you any answers here. I just know the basic parameters that govern it.
 
Ok, thanks. Ill move it to aerospace and see if anything comes up
 
I meant to do your own independent research on it. Search Google scholar and look for papers. You likely won't find that answer by asking on here. It's fairly niche.
 
Yeah it seemed like it. I don't think I am going to find it here. And I will be looking on google scholar and stuff. But it doest hurt to ask. I thought there might have been some well known rules like recompression shock angles or pressure differences or something, or mabey it was some well known thing, but it doesn't seem so
 
There probably are rules of thumb at least to some degree, but the area is so specialized that it's not something that would typically be taught in any undergraduate fluids course or really any graduate courses. It's the sort of thing a researcher would learn from reading papers while conducting their research rather than in a classroom. Shoot, I even teach compressible flow courses and I don't know the answer to this off the top of my head. All I can tell you is that the inviscid phenomena like the shock angles are going to depend pretty much exclusively on the geometry and the Mach number, and the viscous phenomena like unsteadiness in the wake are going to be based on the Mach and Reynolds numbers.
 
Hmmm, I wonder if since the recompression shocks and those shear layers seem to sort of bound the wake in, if calculating those angles might help, but the unsteadiness in the wake might effect it too. Looks like I have some research to do
 

Similar threads

How to Approximate Aerodynamic Coefficients? (Lift/Drag)
Replies
1
Views
3K
Need Help with Aerodynamics Equations?
Replies
4
Views
712
Good books/resources for getting into aerodynamics?
Replies
12
Views
3K
Fusion aerospace propulsion systems for the near future
Replies
23
Views
4K
Aerodynamics slipstream and drag
Replies
1
Views
2K
Explore Physiology & Aerodynamics of Supersonic Alien Birds
Replies
15
Views
6K
Opinions on a Hypersonic Tunnel based Transportation System
Replies
31
Views
8K
I C Could a Jet Helicopter with Wings Fly at Supersonic Speeds?
Replies
4
Views
5K
Ramjet artillery shell of a big size
Replies
35
Views
7K
Calculating Vehicle Speed based on Downforce (Aerodynamics)
Replies
8
Views
4K

Hot Threads

Recent Insights

Back
Top