Multiphase theory of Lennard-Jones nanofluids and the vaporization and   condensation of nanodroplets

Fredrick Michael

arXiv:1002.0327·cond-mat.stat-mech·February 2, 2010

Multiphase theory of Lennard-Jones nanofluids and the vaporization and condensation of nanodroplets

Fredrick Michael

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TL;DR

This paper develops a multiphase theoretical framework for Lennard-Jones nanofluids and nanodroplets, using an information theoretic approach to analyze vaporization and condensation processes.

Contribution

It introduces a novel multiphase theory of Lennard-Jones fluids based on information theory, providing analytic solutions for nanofluid phase transitions.

Findings

01

Derived least biased particle distributions

02

Analytic solutions for phase transition dynamics

03

Enhanced understanding of nanodroplet vaporization and condensation

Abstract

Recently there has been growing interest in nanofluids and nanodroplet engineering and applications. In this paper we derive a theory of Lennard-Jones fluids in multiphase dynamics from the information theoretic approach in analogy to the fully quantum mechanical theory of phase transitions. We derive least biased distributions of the particles and some analytic solutions are obtained.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · nanoparticles nucleation surface interactions · Theoretical and Computational Physics