Include Page | ||||
---|---|---|---|---|
|
Include Page | ||||
---|---|---|---|---|
|
Exercises
Problem
Use FLUENT to resolve the developing flow in a pipe (same configuration as was done in the tutorial) for a pipe Reynolds number of 10,000 on the following meshes: 100x5, 100x20 with uniform spacing in the radial direction. Plot the skin friction cf as a function of axial location for each grid. Compare the exit value with the expected value for fully developed flow (e.g., see White pgs. 345-346). Recall that a key question for the integrity of the mesh is the non-dimensional value of the first nodal point:
Latex |
---|
Wiki Markup |
{include: FLUENT Google Analytics} {panel} [Problem Specification|FLUENT - Turbulent Pipe Flow] [1. Create Geometry in GAMBIT|FLUENT - Turbulent Pipe Flow - Step 1] [2. Mesh Geometry in GAMBIT|FLUENT - Turbulent Pipe Flow - Step 2] [3. Specify Boundary Types in GAMBIT|FLUENT - Turbulent Pipe Flow - Step 3] [4. Set Up Problem in FLUENT|FLUENT - Turbulent Pipe Flow - Step 4] [5. Solve|FLUENT - Turbulent Pipe Flow - Step 5] [6. Analyze Results|FLUENT - Turbulent Pipe Flow - Step 6] [7. Refine Mesh|FLUENT - Turbulent Pipe Flow - Step 7] {color:#ff0000}{*}Problem 1{*}{color} {panel} h2. Problem 1 h4. Problem Use FLUENT to resolve the developing flow in a pipe (same configuration as was done in the tutorial) for a pipe Reynolds number of 10,000 on the following meshes: 100x5, 100x20 with uniform spacing in the radial direction. Plot the skin friction _c{_}{_}{~}f{~}_ as a function of axial location for each grid. Compare the exit value with the expected value for fully developed flow (e.g., see White pgs. 345-346). Recall that a key question for the integrity of the mesh is the non-dimensional value of the first nodal point: {latex} \large $$ {y_1}^+ = {u_*y \over v} = \sqrt{\tau_w \over \rho} {y_1 \over v} $$ {latex} |
This
...
should
...
be
...
either
...
less
...
than
...
4
...
(so
...
that
...
you
...
resolve
...
down
...
into
...
the
...
viscous
...
sublayer)
...
or
...
greater
...
than
...
30
...
(where
...
wall
...
functions
...
can
...
accurately
...
compensate
...
for
...
the
...
poorly
...
resolved
...
viscous
...
sublayer).
...
Intermediate
...
values
...
can
...
lead
...
to
...
greater
...
errors.
...
Calculate
...
the
...
value
...
of
...
y
...
1
...
+
...
for
...
each
...
mesh;
...
use
...
that
...
to
...
help
...
explain
...
(briefly)
...
the
...
trends
...
in
...
the
...
agreement
...
that
...
you
...
observe.
...
Hints
If you no longer have the 100x5 or 100x20 mesh, you can download them here: pipe100x5.msh, pipe100x20.msh
Go to Comments