Thermal Expansivity of Ternary Liquid Mixtures: Application of Hard-Sphere Models and Flory's Statistical Theory

Tripathi, Bhawana S.; Awasthi, Aashees

doi:10.12693/aphyspola.118.589

Cited by 6 publications

(4 citation statements)

References 29 publications

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“…For use in this relationship, a polynomial expression was fit to the density–temperature data with the results given in Table . The thermal expansion coefficients based on these expressions are also given in Table at 293.15 K. The value for n -hexadecane at 298.15 K is 0.897 × 10 –3 K –1 , which falls between the reported values of 0.884 × 10 –3 K –1 and 0.898 × 10 –3 K –1 . , Using these thermal expansion coefficients, the excess molar expansion coefficients were calculated by where ϕ is the volume fraction given by Here α mixture is the thermal expansion coefficient of the mixture; α 1 , V 1 and x 1 are the thermal expansion coefficient, molar volume, and mole fraction of the aromatic compound, and α 1 , V 2 , and x 2 are the thermal expansion coefficient, molar volume, and mole fraction of n -hexadecane. The calculated excess molar expansion coefficients are given in Table .…”

Section: Resultsmentioning

confidence: 76%

“…Moravkova et al 63 report values of a similar magnitude (∼ −6 × 10 6 K −1 ) for binary mixtures of toluene and isooctane. Awasthti et al 62 report that the small excess molar expansion coefficients for nonpolar mixtures (less than 1% of the actual value) are not significant for thermodynamic considerations. Only the larger values for polar mixtures indicated strong intermolecular interactions.…”

Section: Resultsmentioning

confidence: 99%

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Densities and Viscosities at 293.15–373.15 K, Speeds of Sound and Bulk Moduli at 293.15–333.15 K, Surface Tensions, and Flash Points of Binary Mixtures of n-Hexadecane and Alkylbenzenes at 0.1 MPa

Prak

Cowart

et al. 2017

J. Chem. Eng. Data

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The viscosities and densities (293.15−373.15 K), speeds of sound (293.15−333.15 K), surface tensions (room temperature), and flash points were measured for binary mixtures of n-hexadecane and alkylbenzenes (hexylbenzene, octylbenzene, dodecylbenzene), which are components of diesel fuel. Increasing the temperature decreased densities, and excess molar volumes of mixtures were higher for hexylbenzene mixtures than for octylbenzene mixtures and insignificantly different from zero for dodecylbenzene mixtures. The decrease in excess molar volume with increasing alkyl chain length is consistent with other binary mixtures of n-hexadecane and alkylbenzenes. Increasing the temperature decreased viscosities, and the McAllister three-body model successfully modeled viscosity with the compound in the mixture with the highest individual viscosity having the largest fitted interaction parameter. Mixture flashpoints, speed of sounds, bulk moduli, and surface tensions fell between the pure component values. For n-hexadecane/n-hexylbenzene mixtures, as the mole fraction of hexylbenzene increased, the speed of sound remained constant until a mole fraction of 0.5; then the speed of sound increased. On the basis of these data, binary mixtures of these compounds could be formulated to have property values that match those found in diesel fuel, except for surface tension, and thereby be potential fuel surrogates.

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Section: Resultsmentioning

confidence: 76%

Section: Resultsmentioning

confidence: 99%

Densities and Viscosities at 293.15–373.15 K, Speeds of Sound and Bulk Moduli at 293.15–333.15 K, Surface Tensions, and Flash Points of Binary Mixtures of n-Hexadecane and Alkylbenzenes at 0.1 MPa

Prak

Cowart

et al. 2017

J. Chem. Eng. Data

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“…Excess thermal expansion coefficient values describe the packing of the molecules and their orientation in the mixtures. The positive values of α m E describe the self-association of molecules in the mixtures, whereas the negative values imply the presence of hydrogen bonds within the molecules of components present in the mixture . The values of α m E for TBP + hexane mixtures are negative.…”

Section: Resultsmentioning

confidence: 99%

“…Proposed correlations have been compared with the existing ones to prove the superiority in prediction. Excess properties of both mixtures have been discussed in terms of intramolecular and intermolecular interactions of molecules. − …”

Section: Introductionmentioning

confidence: 99%

Correlations among Composition, Temperature, and Density, Viscosity, or Derived Thermodynamic Properties of Binary Mixtures of Tri-n-butyl Phosphate withn-Hexane orn-Dodecane

Singh

Tripathi²,

Venkata³

et al. 2014

Ind. Eng. Chem. Res.

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Correlations proposed in this work predict density and viscosity with better accuracy in comparison with existing correlations. Dimensionless specific volume and logarithmic viscosity of binary mixtures are nth order (1 ≤ n ≤ 4) polynomials of the mole fraction of one of the components at the system temperature, and parametric coefficients of such polynomials are mth order (1 ≤ m ≤ 4) polynomials of system temperatures. Parametric coefficients of fitted fourth order Redlich−Kister type equations (RK-eq) are linear functions of temperature. Excess properties and derived thermodynamic properties of both mixtures have been discussed in terms of intramolecular and intermolecular interactions of molecules. Like virial equations of state (EOS), dimensionless RK-eq quantifies to calculate virial coefficients and hence to compute interactions among component 1−1, component 1−2, and component 2−2. Parametric coefficients of the Vogel−Fulcher−Tammann equation of viscosity are polynomials of mole fractions of one of the components.

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Effect of presence of tetra alkyl ammonium bromides on solution behavior of 1-Butyl-2, 3-dimethylimidazolium chloride at different temperatures: Volumetric and acoustic studies

Sailaja

Sarangi

Dalai

et al. 2020

Chemical Data Collections

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Thermal Expansivity of Ternary Liquid Mixtures: Application of Hard-Sphere Models and Flory's Statistical Theory

Cited by 6 publications

References 29 publications

Densities and Viscosities at 293.15–373.15 K, Speeds of Sound and Bulk Moduli at 293.15–333.15 K, Surface Tensions, and Flash Points of Binary Mixtures of n-Hexadecane and Alkylbenzenes at 0.1 MPa

Densities and Viscosities at 293.15–373.15 K, Speeds of Sound and Bulk Moduli at 293.15–333.15 K, Surface Tensions, and Flash Points of Binary Mixtures of n-Hexadecane and Alkylbenzenes at 0.1 MPa

Correlations among Composition, Temperature, and Density, Viscosity, or Derived Thermodynamic Properties of Binary Mixtures of Tri-n-butyl Phosphate withn-Hexane orn-Dodecane

Effect of presence of tetra alkyl ammonium bromides on solution behavior of 1-Butyl-2, 3-dimethylimidazolium chloride at different temperatures: Volumetric and acoustic studies

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