Efficiency estimation for an equilibrium version of Maxwell refrigerator

Abstract

Maxwell refrigerator as a device that can transfer heat from a cold to hot temperature reservoir making use of information reservoir was introduced by Mandal et al. Mandal2013a. The model has a two state demon and a bit stream interacting with two thermal reservoirs simultaneously. We work out a simpler version of the refrigerator where the demon and bit system interact with the reservoirs separately and for a duration long enough to establish equilibrium. The efficiency, η, of the device when working as an engine as well as the coefficient of performance (COP) when working as a refrigerator are calculated. It is shown that the maximum efficiency matches that of a Carnot engine/refrigerator working between the same temperatures, as expected. The COP at maximum power decreases as 1Th when Th >Tc E (kB = 1), where Th and Tc are the temperatures of the hot and cold reservoirs respectively and E is the level spacing of the demon. η at maximum power of the device, when working as a heat engine, is found to be Th0.779 + Th when Tc E and Th E.