Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - Elsevier
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - infona.pl
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
[引用][C] Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - cir.nii.ac.jp
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for
thermoelectric devices | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] …
thermoelectric devices | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle… - Applied Thermal …, 2012 - ui.adsabs.harvard.edu
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - inis.iaea.org
[en] Thermoelectric devices are semiconductor devices which are capable of either
generating a voltage when placed in between a temperature gradient, exploiting the …
generating a voltage when placed in between a temperature gradient, exploiting the …
[引用][C] Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A MONTECUCCO, JR BUCKLE… - Applied thermal …, 2012 - pascal-francis.inist.fr
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation
for thermoelectric devices CNRS Inist Pascal-Francis CNRS Pascal and Francis …
for thermoelectric devices CNRS Inist Pascal-Francis CNRS Pascal and Francis …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - osti.gov
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - eprints.gla.ac.uk
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
Solution to the 1-D unsteady heat conduction equation with internal Joule heat generation for thermoelectric devices
A Montecucco, JR Buckle, AR Knox - Applied Thermal Engineering, 2012 - eprints.gla.ac.uk
Thermoelectric devices are semiconductor devices which are capable of either generating a
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …
voltage when placed in between a temperature gradient, exploiting the Seebeck effect, or …