Litcius/Paper detail

Temperature-dependent maximization of work and efficiency in a degeneracy-assisted quantum Stirling heat engine

Sarbani Chatterjee, Arghadip Koner, Sohini Chatterjee, Chandan Kumar

2021Physical review. E32 citationsDOIOpen Access PDF

Abstract

We propose a quantum Stirling heat engine with an ensemble of harmonic oscillators as the working medium. We show that the efficiency of the harmonic oscillator quantum Stirling heat engine (HO-QSHE) at a given frequency can be maximized at a specific ratio of the temperatures of the thermal reservoirs. In the low-temperature or equivalently high-frequency limit of the harmonic oscillators, the efficiency of the HO-QSHE approaches the Carnot efficiency. Further, we analyze a quantum Stirling heat engine with an ensemble of particle-in-a-box quantum systems as the working medium. Here both work and efficiency can be maximized at a specific ratio of temperatures of the thermal reservoirs. These studies will enable us to operate the quantum Stirling heat engines at its optimal performance. The theoretical study of the HO-QSHE would provide impetus for its experimental realization, as most real systems can be approximated as harmonic oscillators for small displacements near equilibrium.

Topics & Concepts

Stirling engineCarnot cycleHeat engineStirling cycleThermal efficiencyHarmonic oscillatorWork (physics)QuantumThermalHarmonicQuantum thermodynamicsDegeneracy (biology)PhysicsMechanicsThermodynamicsQuantum mechanicsChemistryCombustionOrganic chemistryBiologyBioinformaticsAdvanced Thermodynamics and Statistical MechanicsQuantum Electrodynamics and Casimir EffectThermal Radiation and Cooling Technologies
Temperature-dependent maximization of work and efficiency in a degeneracy-assisted quantum Stirling heat engine | Litcius