Thermodynamic Derivation of the Reciprocal Relation of Thermoelectricity
Ti-Wei Xue, Zeng-Yuan Guo

TL;DR
This paper derives the Kelvin relation in thermoelectricity using a fully reversible thermodynamic approach, resolving past criticisms of earlier methods.
Contribution
A new derivation of the Kelvin relation using equilibrium thermodynamics, avoiding assumptions of irreversibility.
Findings
The Kelvin relation is derived using a fully reversible thermodynamic framework.
The Onsager reciprocal relations are directly derived from equilibrium thermodynamics.
The approach can be extended to other coupled physical phenomena.
Abstract
The Kelvin relation, relating the Seebeck coefficient and the Peltier coefficient, is a theoretical basis of thermoelectricity. It was first derived by Kelvin using a quasi-thermodynamic approach. However, Kelvin’s approach was subjected to much criticism due to the rude neglect of irreversible factors. It was only later that a seemingly plausible proof of the Kelvin relation was given using the Onsager reciprocal relation with full consideration of irreversibility. Despite this, a critical issue remains. It is believed that the Seebeck and Peltier effects are thermodynamically reversible, and therefore, the Kelvin relation should also be independent of irreversibility. Kelvin’s quasi-thermodynamic approach, although seemingly irrational, may well have touched on the essence of thermoelectricity. To avoid Kelvin’s dilemma, this study conceives the physical scenarios of equilibrium…
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Taxonomy
TopicsAdvanced Thermodynamics and Statistical Mechanics · Advanced Thermoelectric Materials and Devices · Thermal properties of materials
