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Posted:
1 decade ago
7 feb 2014, 16:02 GMT-5
Hi,
You forget to add "volume force". Without this water is not moving by temperature difference. Check model.
Best regards
Tero Hietanen
Hi,
You forget to add "volume force". Without this water is not moving by temperature difference. Check model.
Best regards
Tero Hietanen
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Posted:
1 decade ago
10 feb 2014, 13:17 GMT-5
Hi Tero Hietanen!
Thank You for the helpful reply.
=> The point to make the equations converge and work was Your adding of "Pressure Point constant" for one point at the wall of the fluid, as You inserted into my model. I didn't expect, that this was needed.
=> Yes, You are right, a body force is needed to drive a convection inside the fluid.
=> A subsequent question is: How do I know, how the physical properties in the material library treat the temperature, salinity and pressure dependency of the material?
==> Is there a way to check the values of several variables before running the program, just by asking the software?
Greetings
Hans
Hi Tero Hietanen!
Thank You for the helpful reply.
=> The point to make the equations converge and work was Your adding of "Pressure Point constant" for one point at the wall of the fluid, as You inserted into my model. I didn't expect, that this was needed.
=> Yes, You are right, a body force is needed to drive a convection inside the fluid.
=> A subsequent question is: How do I know, how the physical properties in the material library treat the temperature, salinity and pressure dependency of the material?
==> Is there a way to check the values of several variables before running the program, just by asking the software?
Greetings
Hans
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Posted:
1 decade ago
12 feb 2014, 02:20 GMT-5
Hello Hans,
Pressure point constant is needed because without this fluid has no connection to pressure and due to this solution is not working.
To that other question I don't have good solution, sorry.
Best regads
Tero
Hello Hans,
Pressure point constant is needed because without this fluid has no connection to pressure and due to this solution is not working.
To that other question I don't have good solution, sorry.
Best regads
Tero
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Posted:
1 decade ago
19 feb 2014, 11:18 GMT-5
Pressure point constant is needed because without this fluid has no connection to pressure and due to this solution is not working.
Does this setting mean, the pressure inside the fluid is all the time constant at the pressure set?
What is the way to deal with variable overpressures in the container depending on changing temperatures which result from different thermal expansions of the fluid contents in the sealed volume relative to the thermal expansion of the container?
May be I should calculate the internal pressure from the volume change of the fluid due to differences in thermal expansions of the fluid and the container and insert a variable with this value? Or isn't it necessary to have the overpressure in the volume which is constant in the volume set at that point?
[QUOTE] Pressure point constant is needed because without this fluid has no connection to pressure and due to this solution is not working. [/QUOTE]
Does this setting mean, the pressure inside the fluid is all the time constant at the pressure set?
What is the way to deal with variable overpressures in the container depending on changing temperatures which result from different thermal expansions of the fluid contents in the sealed volume relative to the thermal expansion of the container?
May be I should calculate the internal pressure from the volume change of the fluid due to differences in thermal expansions of the fluid and the container and insert a variable with this value? Or isn't it necessary to have the overpressure in the volume which is constant in the volume set at that point?