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Lockup table in thermometric model

Posted 13 déc. 2018, 10:09 UTC−5 3 Replies

Samar Akef
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Dear Colleagues, Greeting, I'm Samar Akef, I need your help for adding a lockup table in thermoelectric model, how can i get the relation between the temperature and each of the following: 1-Seebeck coefficient. 2-Thermal Conductivity. 3-Electrical Conductivity.

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Samar Akef
RA&TA at AUC in Cairo
3 Replies Last Post 20 déc. 2018, 11:02 UTC−5
Jeff Hiller COMSOL Employee

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Posted: 6 years ago 13 déc. 2018, 10:16 UTC−5
Updated: 6 years ago 13 déc. 2018, 15:10 UTC−5

Hello Samar,

Look-up tables can be introduced with interpolation functions, see here

Best,

Jeff

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Jeff Hiller
Hello Samar, Look-up tables can be introduced with interpolation functions, see [here](https://www.comsol.com/forum/thread/151123/importing-data-and-parameterizing?last=2017-07-25T15:12:43Z) Best, Jeff
Samar Akef
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Posted: 6 years ago 20 déc. 2018, 04:33 UTC−5

Hello Samar,

Look-up tables can be introduced with interpolation functions, see here

Best,

Jeff Dear Jeff, Thanks for your fast reply, Can you clarify to me in the Thermoelectric model the relation between the temperature and each of the following: Seebeck coefficient, Thermal and Electircal Conductivities which are using in the lock-up table?

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Samar Akef
RA&TA at AUC in Cairo
>Hello Samar, > >Look-up tables can be introduced with interpolation functions, see [here](https://www.comsol.com/forum/thread/151123/importing-data-and-parameterizing?last=2017-07-25T15:12:43Z) > >Best, > >Jeff Dear Jeff, Thanks for your fast reply, Can you clarify to me in the Thermoelectric model the relation between the temperature and each of the following: Seebeck coefficient, Thermal and Electircal Conductivities which are using in the lock-up table?
Jeff Hiller COMSOL Employee

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Posted: 6 years ago 20 déc. 2018, 11:02 UTC−5

Hello Samar,

I am not sure I understand your question correctly. Material properties such as the Seebeck coefficient and the thermal and electrical conductivities are inputs to the model that the end user of the software either selects from those provided in the software or supplies in the form of contants or functions (and you earlier expressed an interest in supplying them as functions of temperature via a look-up table). With those material properties selected/specified by the end user, the software solves the classical equations for electricity and heat transfer. See for instance this webinar which presents thermoelectric device modeling with COMSOL's Heat Transfer Module.

Best,

Jeff

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Jeff Hiller
Hello Samar, I am not sure I understand your question correctly. Material properties such as the Seebeck coefficient and the thermal and electrical conductivities are inputs to the model that the end user of the software either selects from those provided in the software or supplies in the form of contants or functions (and you earlier expressed an interest in supplying them as functions of temperature via a look-up table). With those material properties selected/specified by the end user, the software solves the classical equations for electricity and heat transfer. See for instance [this webinar](https://www.comsol.com/video/simulate-thermoelectric-devices-tecs) which presents thermoelectric device modeling with COMSOL's Heat Transfer Module. Best, Jeff

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