Fluid mechanics navier stokes flow around geometry

AI Thread Summary
The discussion focuses on modeling fluid flow around geometries, specifically 2-D flow around a circle, using the Navier-Stokes equations. It highlights the challenge of finding analytical solutions for external flows, noting that solutions like the Blasius solution exist mainly for laminar flow over flat surfaces. The conversation emphasizes that 2-D flow around a cylinder typically does not yield analytical solutions due to complexities like flow separation and unsteady wake patterns. The participants clarify that "very low Reynolds number" is context-dependent, particularly in relation to Stokes flow, which is valid when Re is much less than 1. Overall, the thread underscores the difficulties in modeling viscous flows and the need for specific conditions to apply certain fluid dynamics principles effectively.
member 428835
hey pf!

i am studying fluid mechanics and was wondering if any of you are familiar with a flow around some geometry? for example, perhaps a 2-D fluid flowing around a circle?

if so please reply, as i am wondering how to model the navier-stokes equations. i'll be happy to post the equations and my thoughts if you would like me to?

for the record, i am using white's book, and while it is great, i have not seen any examples dealing with 2-D flow around geometry. so far it's been flow in between plates and against a wall.

thanks so much for your support and interset!

josh
 
Engineering news on Phys.org
The problem is that in general you can't find a solution to the Navier-Stokes equations analytically, especially external flows. There are some that are possible, like laminar flow over a flat plate (the Blasius solution), but these are relatively few and far between.

Except at very low Reynolds number, the 2-D flow around a circle (or cylinder, for example) is one such flow where an analytical solution is not possible for a viscous flow. You have to deal with flow separation and an unsteady wake (for example, try Googling von Kármán vortex street).
 
thanks you guys! hey bonehead, what do we consider "very low Re number"? would it be possible to model, say, syrup sliding over a plate with a slight angle as a low reynolds number, or is this too fast?
 
That depends on the context. With a cylinder in a viscous flow, very low Reynolds number in regards to whether Stokes flow is valid is typically considered to be Re \ll 1. It doesn't really make sense to just ask what constitutes very low Reynolds number in a random situation since you aren't really specifying in that case what physical phenomenon you are hoping to capture or avoid. For example, in Stokes flow, very low Reynolds number represents the region where the assumptions used in deriving it are valid.
 

Thread 'Questions about the Tesla turbine'

Hi all, i have some questions about the tesla turbine: is a tesla turbine more efficient than a steam engine or a stirling engine ? about the discs of the tesla turbine warping because of the high speed rotations; does running the engine on a lower speed solve that or will the discs warp anyway after time ? what is the difference in efficiency between the tesla turbine running at high speed and running it at a lower speed ( as fast as possible but low enough to not warp de discs) and: i...
View full post »
Thread 'Where is my curb stop?'

Thread 'Where is my curb stop?'

My water meter is submerged under water for about 95% of the year. Today I took a photograph of the inside of my water meter box because today is one of the rare days that my water meter is not submerged in water. Here is the photograph that I took of my water meter with the cover on: Here is a photograph I took of my water meter with the cover off: I edited the photograph to draw a red circle around a knob on my water meter. Is that knob that I drew a red circle around my meter...
View full post »

Similar threads

I Assumptions for Navier Stokes equations in this system
Replies
3
Views
1K
Computational Fluid Dynamics: Dissipation Function Density Based Solver
Replies
9
Views
3K
Flow rate of fluid at a burst leakage in a pipeline due to over pressurization
Replies
5
Views
4K
Resources for learning more about Navier-Stokes Equations
Replies
6
Views
2K
A Why are the Navier-Stokes equations inconsistent in this case?
Replies
18
Views
2K
A Why do the Navier-Stokes equations give us non-existent results for 3D flow?
Replies
9
Views
3K
What does the Navier-Stokes equation look like after time discretization?
Replies
3
Views
2K
A Navier-Stokes with spatially varying viscosity
Replies
7
Views
2K
Best way to learn fluid mechanics while in high school
Replies
7
Views
2K
B What makes the Navier Stokes equation so difficult?
Replies
35
Views
12K

Hot Threads

Recent Insights

Back
Top