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Heterogeneous Cluster Energetics and Nonlinear Thermodynamic Response in Supercritical Fluids

JingCun Fan, Nguyen Ly, Matthias Ihme

2024Physical Review Letters10 citationsDOIOpen Access PDF

Abstract

Microstructural heterogeneities arising from molecular clusters directly affect the nonlinear thermodynamic properties of supercritical fluids. We present a physical model to elucidate the relation between energy exchange and heterogeneous cluster dynamics during the transition from liquidlike to gaslike conditions. By analyzing molecular-dynamics data and employing physical principles, the model considers contributions from three key processes, namely, changing cluster density, cluster separation, and transfer of molecules between clusters. We show that the proposed model is consistent with the energetics at subcritical conditions and can be used to explain the nonlinear behavior of thermodynamic response functions, including the peak in the isobaric heat capacity.

Topics & Concepts

Supercritical fluidCluster (spacecraft)Isobaric processNonlinear systemEnergeticsHeat capacityThermodynamicsMolecular dynamicsStatistical physicsMaterials scienceCluster expansionChemical physicsPhysicsChemistryComputational chemistryComputer scienceQuantum mechanicsProgramming languagePhase Equilibria and ThermodynamicsSubcritical and Supercritical Water ProcessesMaterial Dynamics and Properties
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