ansys wb - 2d steady convection - problem specification - simulation - confluence

2
28/1/2014 ANSYS WB - 2D Steady Convection - Problem Specification - Simulation - Confluence https://confluence.cornell.edu/display/SIMULATION/ANSYS+WB+-+2D+Steady+Convection+-+Problem+Specification 1/2 Simulation > > ANSYS WB - 2D Steady Convection - Problem Specification Labels: None SimCafe Home Browse/Manage Login Search ANSYS WB - 2D Steady Convection - Problem Specification Added by Benjamin J Mullen , last edited by Rajesh Bhaskaran on Jun 10, 2012 09:06 Author: Benjamin Mullen, Cornell University Problem Specification 1. Pre-Analysis & Start-Up 2. Geometry 3. Mesh 4. Setup (Physics) 5. Solution 6. Results 7. Verification & Validation Problem Specification A fluid enters a pipe 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. Search Cornell Edit

Upload: irqovi

Post on 27-Nov-2015

37 views

Category:

Documents


1 download

DESCRIPTION

good

TRANSCRIPT

Page 1: ANSYS WB - 2D Steady Convection - Problem Specification - Simulation - Confluence

28/1/2014 ANSYS WB - 2D Steady Convection - Problem Specification - Simulation - Confluence

https://confluence.cornell.edu/display/SIMULATION/ANSYS+WB+-+2D+Steady+Convection+-+Problem+Specification 1/2

Simulation > … >

ANSYS WB - 2D Steady Convection - Problem Specification

Labels: None

SimCafe

Home Browse/Manage Login

Search

ANSYS WB - 2D Steady Convection - Problem SpecificationAdded by Benjamin J Mullen , last edited by Rajesh Bhaskaran on Jun 10, 2012 09:06

Author: Benjamin Mullen, Cornell University

Problem Specification

1. Pre-Analysis & Start-Up

2. Geometry

3. Mesh

4. Setup (Physics)

5. Solution

6. Results

7. Verification & Validation

Problem Specification

A fluid enters a pipe 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.

Search Cornell

Edit

Page 2: ANSYS WB - 2D Steady Convection - Problem Specification - Simulation - Confluence

28/1/2014 ANSYS WB - 2D Steady Convection - Problem Specification - Simulation - Confluence

https://confluence.cornell.edu/display/SIMULATION/ANSYS+WB+-+2D+Steady+Convection+-+Problem+Specification 2/2

Click here to enlarge

Using ANSYS FLUENT, simulate the above flow. Calculate and plot the velocity, temperature,

pressure and Nusselt number variation in the pipe.

Go to Step 1 - Pre-Analysis & Start-Up

Go to all FLUENT Learning Modules

This work is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License

Adaptavist Theme Builder (4.2.4-M1) Powered by Atlassian Confluence 3.5.16, the Enterprise Wiki