Ansys - heat transfer within pipes and with surroundings

In summary, the conversation discusses using ANSYS software to study heat transfer within pipes and their impact on the surrounding atmosphere, specifically in a scenario where two pipes with varying temperatures have air flowing in opposite directions. The suggested approach is to first analyze a simplified case using an analytical solution, then use ANSYS' conjugate heat transfer model with coupled boundary conditions to simulate the geometry in more detail. The known pressure can be used as the inlet boundary condition for the flow.
  • #1
g.kailash
2
0
ansys -- heat transfer within pipes and with surroundings

hello ,

am doing my master in architecture n currently in my thesis stage and the thesis is about heat transfer within pipes and their influence on the surrounding atmosphere.

i wish to know which is the right kind of analysis in ansys to study the effect of heat transfer between two pipes which has air flow in opposite direction and of varied temperature , but he pressure is same in both cases .

please do refer the image for more explanation.thanks in advance
 

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  • #2
first study a simplified case with an analytical solution, e.g. by using the book of Lienhard:
http://web.mit.edu/lienhard/www/ahtt.html
You need to simplify your coil by an annulus or something. This will already give you a rough idea of the heat transfer in this simple counterflow heat exchanger.

In ansys (fluent?), you can use the conjugate heat transfer model with coupled boundary conditions between the coil/pipe and the air to simulate your geometry in more detail. You can use the known pressure as the inlet boundary condition for the flow.
 
  • #3
thank you.
 

Related to Ansys - heat transfer within pipes and with surroundings

1. What is Ansys and how does it relate to heat transfer within pipes and with surroundings?

Ansys is a finite element analysis software commonly used by scientists and engineers to simulate and analyze complex physical phenomena, such as heat transfer. It uses numerical methods to solve equations that govern heat transfer within pipes and with surroundings, providing valuable insights and predictions for various applications.

2. How does Ansys simulate heat transfer within pipes?

Ansys uses the finite element method to discretize the pipe into smaller elements, allowing for more accurate analysis. It also takes into account factors such as material properties, fluid flow, and boundary conditions to accurately simulate heat transfer within the pipes.

3. How does Ansys simulate heat transfer with surroundings?

Ansys uses the finite element method to discretize the surrounding environment into smaller elements, taking into account factors such as convection, radiation, and conduction to accurately simulate heat transfer between the pipes and the surroundings. It also allows for the customization of boundary conditions to mimic real-world scenarios.

4. What are the benefits of using Ansys for heat transfer analysis?

Ansys provides a powerful and user-friendly platform for analyzing heat transfer within pipes and with surroundings. It allows for accurate simulations of complex systems, which can save time and resources compared to physical testing. It also provides valuable insights into the thermal behavior of a system, allowing for optimization and design improvement.

5. Can Ansys be used for other heat transfer applications?

Yes, Ansys can be used for a wide range of heat transfer applications, including but not limited to heat exchangers, cooling systems, and thermal management in electronics. Its capabilities can also be extended to other areas such as structural analysis, fluid flow, and electromagnetics, making it a versatile tool for various engineering and scientific fields.

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