A thermal reservoir, also thermal energy reservoir or thermal bath, is a thermodynamic system with a heat capacity so large that the temperature of the reservoir changes relatively little when a much more significant amount of heat is added or extracted.[1] As a conceptual simplification, it effectively functions as an infinite pool of thermal energy at a given, constant temperature. Since it can act as a source and sink of heat, it is often also referred to as a heat reservoir or heat bath.
Lakes, oceans and rivers often serve as thermal reservoirs in geophysical processes, such as the weather. In atmospheric science, large air masses in the atmosphere often function as thermal reservoirs.
Since the temperature of a thermal reservoir T does not change during the heat transfer, the change of entropy in the reservoir is
where is the Boltzmann constant. It thus changes by the same factor when a given amount of energy is added. The exponential factor in this expression can be identified with the reciprocal of the Boltzmann factor.
thermal, reservoir, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, 2021, l. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Thermal reservoir news newspapers books scholar JSTOR May 2021 Learn how and when to remove this template message A thermal reservoir also thermal energy reservoir or thermal bath is a thermodynamic system with a heat capacity so large that the temperature of the reservoir changes relatively little when a much more significant amount of heat is added or extracted 1 As a conceptual simplification it effectively functions as an infinite pool of thermal energy at a given constant temperature Since it can act as a source and sink of heat it is often also referred to as a heat reservoir or heat bath Lakes oceans and rivers often serve as thermal reservoirs in geophysical processes such as the weather In atmospheric science large air masses in the atmosphere often function as thermal reservoirs Since the temperature of a thermal reservoir T does not change during the heat transfer the change of entropy in the reservoir is d S R e s d Q T displaystyle dS Res frac delta Q T The microcanonical partition sum Z E displaystyle Z E of a heat bath of temperature T has the property Z E D E Z E e D E k B T displaystyle Z E Delta E Z E e Delta E k B T where k B displaystyle k B is the Boltzmann constant It thus changes by the same factor when a given amount of energy is added The exponential factor in this expression can be identified with the reciprocal of the Boltzmann factor For an engineering application see geothermal heat pump References Edit C Yunus A Boles Michael A 2002 Thermodynamics An Engineering Approach Boston McGraw Hill p 247 ISBN 0 07 121688 X This thermodynamics related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Thermal reservoir amp oldid 1102799332, wikipedia, wiki, book, books, library,
