This is a scientific web page about the twodimensional steady incompressible flow in a driven cavity. The steady incompressible 2D NavierStokes equations are solved numerically. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. This is a scientific web page about the twodimensional steady incompressible flow in a driven cavity. The steady incompressible 2D NavierStokes equations are solved numerically. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations. Driven cavity flow, numerical methods, steady incompressible flow, finite difference, Navier Stokes equations.
Downloads : Numerical Solutions & Codes
Many researchers have contacted me and requested the Fortran codes I have used in my researches. Click on the link below to goto download page for the Fortran codes that I wrote. Those Fortran codes solve the 2D steady incompressible driven cavity flow problem using different numerical approaches. I have added many comments into the codes for easy understanding. (Left Click, Goto Download Page)
Below you will find my numerical solution datas obtained by solving the new Fourth Order Compact formulation of the NavierStokes equations described in the manuscript. These data files satisfy the NavierStokes equations with fourth order spatial accuracy. Using the numerical method introduced in Study 1, forth order solutions (O Dx^{4}) of the steady 2D incompressible driven cavity flow is obtained for Reynolds numbers from 1,000 to 20,000. In these solutions, the number of grids used is 601´601. The data files are binary. Use the fortran code to read the files and also to check the accuracy of the solution. These numerical solutions satisfy the Fourth Order NavierStokes (FONS) equations with very very low residuals. Email me if you need any help with these fortran codes or data files or if you have any comments or suggestions. Please acknowledge this web site if you use these files in your studies.
(Left Click, Download On Next Page)
I have been contacted by many researchers asking for an executable program to read the binary files. If you do not have a fortran compiler, you can use the following compiled executable code on a windows machine. This code will particularly read the binary files in this web page only, and write into an output ASCI file. Download and save the binary files and the executable code in the same directory on your computer, then run the code. EXECUTABLE CODE FOR DATA FILES (use this code to read the binary data files) (Left Click, Download On Next Page)

