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Laminar Pipe Flow - Panel
Laminar Pipe Flow - Panel



Info

This module is from our free online simulations course at edX.org (sign up here). The edX interface provides a better user experience, so we have moved the module there.

Laminar Pipe Flow

Created using ANSYS 13.0. Tutorial instructions work with ANSYS 14.0 and 15.0. There are minor layout changes in ANSYS 15.0. 

Problem Specification

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16.2

all the steps in problem specificationImage Added

Learning Goals

 

In this module, you'll learn to:

  • Develop the numerical solution to a laminar pipe flow problem in ANSYS Fluent
  • Verify the numerical results from ANSYS Fluent
  • Connect the ANSYS steps to concepts covered in the Computational Fluid Dynamics section

Problem Specification

This module is drawn from MAE 4230/5230 Intermediate Fluid Dynamics at Cornell University.

Consider fluid flowing through a circular pipe of constant radius as illustrated

...

below.

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The figure is not to scale. The pipe

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diameter D = 0.2 m and

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length L =

...

3 m Consider the inlet velocity to be constant over the cross-section and equal to 1 m/s. The pressure at the pipe outlet is 1 atm. Take

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density ρ = 1 kg/ m

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 and coefficient of

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viscosity µ = 2 x 10 -

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kg/(m*s). These parameters have been chosen to get a desired Reynolds number of 100 and don't correspond to any real fluid. 

Laminar Pipe DiagramImage Added

 

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We'll solve this problem numerically using ANSYS

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Fluent. We'll look at the following results:

  • Velocity

    vectors 

    vectors

  • Velocity magnitude contours 

  • Pressure contours 

  • Velocity profile at the outlet

  • Skin friction coefficient along the wall

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We'll verify the results by following a systematic process which includes comparing the results with the analytical solution in the full-developed

...

region


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