Robert Koslover
Certified Consultant
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Posted:
1 decade ago
22 janv. 2014, 12:23 UTC−5
Ten seconds is an eternity on a microwave time scale. From an RF perspective, you might as well solve the heat-input problem using the CW formulation. But even better, for a rectangular waveguide driven by a single mode, you can easily compute the heat dissipation in the waveguide walls analytically (see any good RF or electromagnetics textbook). So, if I were doing your problem, I'd solve only the thermal part of it using Comsol Multiphysics, while using an analytic expression for the RF heating term, as applied to the waveguide walls.
Ten seconds is an eternity on a microwave time scale. From an RF perspective, you might as well solve the heat-input problem using the CW formulation. But even better, for a rectangular waveguide driven by a single mode, you can easily compute the heat dissipation in the waveguide walls analytically (see any good RF or electromagnetics textbook). So, if I were doing your problem, I'd solve only the thermal part of it using Comsol Multiphysics, while using an analytic expression for the RF heating term, as applied to the waveguide walls.
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Posted:
1 decade ago
22 janv. 2014, 23:44 UTC−5
Thanks for your Answer.
Actually I am new to Comsol.
what I am trying to do is, place a water filled cylinder tube inside a waveguide and apply a piecewise function as input power source to the input port of the waveguide.
My function is
0-5s = 10W
5-10s=0W
What i am trying is, to apply power for just 5s and see the rising temperature (initially 25 degC), and after 5s turning off the power to see how much time water filled tube or pipe will take to reach its initial temperature.??
Is something like this possible.?
Thanks for your Answer.
Actually I am new to Comsol.
what I am trying to do is, place a water filled cylinder tube inside a waveguide and apply a piecewise function as input power source to the input port of the waveguide.
My function is
0-5s = 10W
5-10s=0W
What i am trying is, to apply power for just 5s and see the rising temperature (initially 25 degC), and after 5s turning off the power to see how much time water filled tube or pipe will take to reach its initial temperature.??
Is something like this possible.?
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
22 janv. 2014, 23:44 UTC−5
Thanks for your Answer.
Actually I am new to Comsol.
what I am trying to do is, place a water filled cylinder tube inside a waveguide and apply a piecewise function as input power source to the input port of the waveguide.
My function is
0-5s = 10W
5-10s=0W
What i am trying is, to apply power for just 5s and see the rising temperature (initially 25 degC), and after 5s turning off the power to see how much time water filled tube or pipe will take to reach its initial temperature.??
Is something like this possible.?
Thanks for your Answer.
Actually I am new to Comsol.
what I am trying to do is, place a water filled cylinder tube inside a waveguide and apply a piecewise function as input power source to the input port of the waveguide.
My function is
0-5s = 10W
5-10s=0W
What i am trying is, to apply power for just 5s and see the rising temperature (initially 25 degC), and after 5s turning off the power to see how much time water filled tube or pipe will take to reach its initial temperature.??
Is something like this possible.?
Robert Koslover
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
26 janv. 2014, 11:00 UTC−5
OK, that's still similar. First compute the heating-rate of the water with the microwaves in cw (aka, frequency domain) mode. Then use that result to define your volumetric heating condition in a thermal model.
OK, that's still similar. First compute the heating-rate of the water with the microwaves in cw (aka, frequency domain) mode. Then use that result to define your volumetric heating condition in a thermal model.
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Posted:
8 years ago
12 oct. 2016, 19:46 UTC−4
Hi, Avinash:
Now I have the similar situation like yours. How did you solve your question at that time?
Any help is appreciated.
- Chang
Hi, Avinash:
Now I have the similar situation like yours. How did you solve your question at that time?
Any help is appreciated.
- Chang