Refined energy-conserving dissipative particle dynamics model with temperature-dependent properties and its application in solidification problem

Energy conservation; Phase interfaces; Prandtl number; Solidification; Constant temperature; Dissipative particle dynamics; Dissipative particle dynamics model; High thermal conductivity; Solid-liquid interfaces; Temperature dependent; Temperature-dependent properties; Two-dimensional solidification...

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Bibliographic Details
Main Authors: Ng K.C., Sheu T.W.H.
Other Authors: 55310814500
Format: Article
Published: American Physical Society 2023
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Institution: Universiti Tenaga Nasional
Description
Summary:Energy conservation; Phase interfaces; Prandtl number; Solidification; Constant temperature; Dissipative particle dynamics; Dissipative particle dynamics model; High thermal conductivity; Solid-liquid interfaces; Temperature dependent; Temperature-dependent properties; Two-dimensional solidification; Thermal conductivity; article; thermal conductivity