Lid driven cavity

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Intro

back to Fluid Mechanics

Let's try MLSM and described solution procedures first on a lid driven cavity problem that stands for a standard benchmark test for validation of the fluid flow solvers. It has been proposed in 1982 and since then solved by many researchers with wide spectra of different numerical methods. The test is still widely studied and used for validation of novel methods and numerical principles. Case is schematically presented in Figure 1 followed by few basic analyses, just to show that things work as they should. Details about comparison can be found in paper

FF .png Figure 1: Scheme of a lid driven cavity case

Code

The snippet of the MLSM code for an explicit ACM method with CBS looks like: (full examples, including implicit versions, can be found under the examples in the code repository Main Page).

 1     for (int step = 0; step <=O.t_steps; ++step) {
 2         // Navier-Stokes
 3         for (auto i:interior) 
 4             // Navier-Stokes
 5             v2[c] = v1[c] + O.dt * ( - 1/O.rho    * op.grad(P1,c)
 6                                      + O.mu/O.rho * op.lap(v1, c)
 7                                      -              op.grad(v1,c)*v1[c]);
 8         }
 9         // Mass continuity
10         for (auto i:interior) { 
11             P2[i] = P1[i] - O.dl * O.dt * O.rho * op.div(v2,i) + O.dl2 * O.dl * O.dt * O.dt * op.lap(P1,i);
12         }
13         v1.swap(v2);
14         P1.swap(P2);
15     }

Results

Lid driven contour Re3200.pngLid driven contour Re100.png


Lid driven contour Re100.png Figure 2: Velocity magnitude contour plot
Lid driven contour Re3200.png Figure 3: Velocity magnitude contour plot


Lid driven explicit exec time.png Figure 4: Execution time for Re = 100 case
Lid driven explicit convergence.png Figure 5: Convergence for Re = 100 case


Lid driven comparison.png Figure 6: Cross section velocity profiles.