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Phase Behavior and Viscosity Modeling of Refrigerant-Lubricant Mixtures
Matias Alfonso Monsalvo
Department of Chemical and Biochemical Engineering
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Ph.D. thesis
4704
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Dive into the research topics of 'Phase Behavior and Viscosity Modeling of Refrigerant-Lubricant Mixtures'. Together they form a unique fingerprint.
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Engineering
Natural Water
100%
Thermodynamic Model
100%
Quaternary System
100%
Fluid Viscosity
100%
Ternary System
100%
Experimental Result
50%
Conductivity Measurement
50%
Temperature Range
50%
Good Agreement
50%
Pure Water
50%
Estimation Procedure
50%
Parameter Estimation
50%
Field Observation
50%
Soluble Salt
50%
Quartz Crystal Microbalance
50%
Temperature Strength
50%
Early Work
50%
Electrochemical Technique
50%
Estimated Parameter
50%
Vapor-Liquid-Solid Equilibrium
50%
Scale Problem
50%
Inductively Coupled Plasma
50%
Ionic Strength
50%
Activity Coefficient
50%
Keyphrases
Lubricant Mixtures
100%
Phase Behavior Modeling
100%
Barite
42%
Solid-phase Speciation
28%
Quaternary System
28%
Magnesite
28%
Sparingly Soluble Salt
14%
BaCO3
14%
High-temperature Strength
14%
Alternative Activities
14%
Geothermal Operations
14%
Strong Model
14%
Carbonate System
14%
SrSO4
14%
Inclusion Strategies
14%
Synthetic Fluid Inclusions
14%
Biochemistry, Genetics and Molecular Biology
Solution and Solubility
100%
Species Differentiation
100%
Conductance
50%
Ionic Strength
50%
Liquid
50%
Analytical Method
50%
Inductively Coupled Plasma Mass Spectrometry
50%
Chemical Engineering
Sodium Chloride
100%
Inductively Coupled Plasma Mass Spectrometry
100%
Barite
100%
Material Science
Carbon Dioxide
100%
Analytical Method
12%
Electrochemical Reaction
12%
Inductively Coupled Plasma Mass Spectrometry
12%
Mechanical Strength
12%
Sodium
12%
Activity Coefficient
12%