| HTML |
|---|
<div style="background-color: yellow; border: 2px solid red; margin: 4px; padding: 2px; font-weight: bold; text-align: center;">
This page has been moved to <a href="https://courses.ansys.com/index.php/courses/steady-state-laminar-convection/">https://courses.ansys.com/index.php/courses/steady-state-laminar-convection/</a>
<br>
Click in the link above if you are not automatically redirected in 10 seconds.
</div>
<meta http-equiv="refresh" content="10; URL='https://courses.ansys.com/index.php/courses/steady-state-laminar-convection/'" /> |
...
| 2D Steady Convection - panel |
|
...
| 2D Steady Convection - panel |
|---|
|
...
| Include Page |
|---|
| FLUENT Google Analytics |
|---|
| FLUENT Google Analytics |
|---|
|
2D Steady Convection
Created using ANSYS 13.0
...
Problem Specification
A fluid flows through enters a pipe with of radius 0.06 meters at a constant velocity of 0.1 m/s. The fluid has a density of 1.2 kg/m^3, a thermal conductivity of 0.02 W/mK, a specific heat of 1000 J/kgK, and a viscosity of 1.8e-5 kg/ms. The first 5.76 meters of the pipe are isothermal, held at 300 K. The remaining 2.88 meters of the pipe have a constant heat flux of 37.5 W/m^2 added at the wall.
| newwindow |
|---|
| Click here to enlarge |
|---|
| Click here to enlarge |
|---|
|
https://confluence.cornell.edu/download/attachments/146921308/ProblemSpec.png?version=1&modificationDate=1305671650000 |
Using ANSYS WorkbenchFLUENT, simulate the above problem flow. Calculate and graph plot the temperature along the axis of the pipe and the temperature distribution at the outletvelocity, temperature, pressure and Nusselt number variation in the pipe.
Go to Step 1 - : Pre-Analysis & Start-Up
Go to all FLUENT Learning Modules
Sign-up for free online course on ANSYS simulations!