Chapter
3.1. Method-1. Observation of the Appearance and Disappearance of Meniscus at The Vapor-Liquid Interface. “Sealed Tube” Method
3.2. Method 2: Law of Rectilinear Diameter
3.3. Method 3: PVT Relations, ((P/(V)T = (( 2P/(V2)T =0
3.4. Method 4: Pulse Heating Method
3.5. Method 5: Flow Apparatus
3.6. Method 6: Acoustic Method of Determination of the Critical Points
3.7. Method 7: Method of Quasi-Static Thermograms
The Critical Properties of Binary CO2+Solute Mixtures
4.1. The Critical Properties of Binary CO2+Alcohol Mixtures
4.2. The Critical Properties of Binary CO2+N-Alkane Mixtures
4.3. The Critical Properties of Binary CO2+Aromatic Hydrocarbon Mixtures
4.4. The Critical Properties of Binary CO2+H2O Mixtures
4.5. The Critical Properties of Binary CO2+Monatomic Gas (He, Ar, Kr, And Xe) Mixtures
4.6. The Critical Properties of Binary CO2+Twoatomic Gases (O2, N2, H2 )
4.7. The Critical Properties of CO2+ Poly-Atomic Fluid (H2S, SO2, N2O, SF6, NH3) Mixtures
4.8. The Critical Properties of CO2+Refrigerant (CHF3, CH2F2, R134a) Mixtures
4.9. The Critical Properties of Binary CO2+(Ethylene, Acetylene, Cyclohexane, and Isomers)
4.10. The Critical Properties of Binary CO2+ (Pyridine, Ethanoic Acid, Acetone, Chloroform, Acetonitrile, And Tetrahydrofuran) Mixtures
The Critical Properties of Binary Aqueous Solutions
5.1. The Critical Properties of Binary Aqueous Salt Solutions
5.2. The Critical Properties of Binary Aqueous Alcohol Solutions
5.3. The Critical Properties of Binary Aqueous Gas Solutions
5.4. The Critical Properties of Binary Aqueous Hydrocarbon Solutions
5.5. The Critical Properties of H2O+D2O
Compilation of the Critical Properties of Binary Mixtures Containing Carbon Dioxide
Compilation of the Critical Properties of Binary Aqueous Solutions
Binary Aqueous and CO2 Containing Mixtures and the Krichevskii Parameter
( Chemistry Research and Applications )
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