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Molecular-level simulation of bubble and dew points of fluid mixtures and application to refrigerant cycle design.
Author(s) : SKVOROVA M., SMITH W. R.
Type of article: Article, IJR article
Summary
Molecular simulation is an increasingly important and useful tool in the design of devices based on many types of chemical phenomena. Such methods for the simulation of all types of vapour–liquid equilibrium (VLE) are particularly important, because they potentially permit their direct application to the design of refrigeration processes. Several molecular simulation methods exist for the calculation of VLE in the cases of flash calculations and bubble-point calculations for fluid mixtures. However, implementations for other VLE problems such as dew-points remain challenging. We present an algorithm for the calculation of all four types of these VLE phenomena in binary mixtures. We illustrate it for a 30 mass% R32/R134a binary refrigerant mixture by means of example dew- and bubble-point problems, in addition to the calculation of P–h and T–h diagrams. We also demonstrate its application to the simulation of a vapour compression refrigeration cycle involving the refrigerant mixture.
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Details
- Original title: Molecular-level simulation of bubble and dew points of fluid mixtures and application to refrigerant cycle design.
- Record ID : 30011391
- Languages: English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 42
- Publication date: 2014/06
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Indexing
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Themes:
Thermodynamics and changes of state;
HFCs;
Blends - Keywords: R134a; Equilibrium; Bubble; Liquid-vapour; R32; Simulation; Dewpoint; Molecule; Mixture; Refrigerant
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