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Inflow heat flux issue
Posted 04.05.2015, 03:57 GMT-4 Fluid & Heat, Heat Transfer & Phase Change, Modeling Tools & Definitions, Parameters, Variables, & Functions Version 4.3b 2 Replies
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Hi everyone,
It looks like I'm having a little issue while using the inflow heat flux condition in the heat transfer module.
I'm studying a boiler where a burner in the middle is producing 24kW. Then the heat is transferred by air to a series of spirals all around with cooling water flowing through.
My problem is the following: because of the computational cost, I'm simulating only a 15 degrees slice of the boiler. Also, I'm not simulating the combustion inside the burner. My domain is limited by the outer surface of the burner, and there I apply an inlet condition to the air flow and an inflow heat flux condition (with a total heat of 24kW/360° * 15° = 1kW).
Now the problem is that this simulation is not giving the expected results.
First of all, I decided to simulate only the heat transfer physics. In this case I would expect a very high temperature on the surface of the burner and a lower temperature on the surfaces of the spiral. Instead, I get a solution where the temperature is constant and equal to the initial values everywhere (so it looks like the solver doesn't see the inflow heat flux).
Then when I try to simulate also the air flow physics, it doesn't work as it finds some roots of negative numbers.
I really don't know how to solve this issue, as my problem seems to be well-posed, with all the right boundary conditions and so on.
Every suggestion you may provide would be very important.
Thanks,
- Davide
It looks like I'm having a little issue while using the inflow heat flux condition in the heat transfer module.
I'm studying a boiler where a burner in the middle is producing 24kW. Then the heat is transferred by air to a series of spirals all around with cooling water flowing through.
My problem is the following: because of the computational cost, I'm simulating only a 15 degrees slice of the boiler. Also, I'm not simulating the combustion inside the burner. My domain is limited by the outer surface of the burner, and there I apply an inlet condition to the air flow and an inflow heat flux condition (with a total heat of 24kW/360° * 15° = 1kW).
Now the problem is that this simulation is not giving the expected results.
First of all, I decided to simulate only the heat transfer physics. In this case I would expect a very high temperature on the surface of the burner and a lower temperature on the surfaces of the spiral. Instead, I get a solution where the temperature is constant and equal to the initial values everywhere (so it looks like the solver doesn't see the inflow heat flux).
Then when I try to simulate also the air flow physics, it doesn't work as it finds some roots of negative numbers.
I really don't know how to solve this issue, as my problem seems to be well-posed, with all the right boundary conditions and so on.
Every suggestion you may provide would be very important.
Thanks,
- Davide
2 Replies Last Post 04.05.2015, 04:58 GMT-4