Density−Pressure Relationship in Hydrogen-Bonded Mixtures:  1,4-Butanediol + 1-Dodecanol

Compostizo, A.; Díez‐Pascual, Ana M.; Colín, and Amalia Crespo; Rubio, Ramón G.

doi:10.1021/je049663c

Cited by 7 publications

(7 citation statements)

References 12 publications

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“…It appears that the values of density obtained by us are in satisfactory agreement with those obtained directly by Compostizo et al [33]; the comparison gave an AAD = 0.04%. However, the deviations show a systematic shift, i.e., the values of Compostizo et al [33] are smaller, and simultaneously, the higher pressure the higher deviations (À0.017% at p = 0.1 MPa and À0.059% at p = 40 MPa). In the case of one point data of Hamann and Smith [32], no comparison was performed because solidification was observed near 100 MPa at T = 303.15 K, i.e., somewhat below the pressure for which the compression qðT; pÞ ¼ q 0 ðT; p 0 Þ=½1 À C Á lnððp þ BðTÞÞ=ðp 0 þ BðTÞÞÞ ð10Þ where q 0 is the temperature-dependent density at the reference pressure (here 0.101325 MPa), B(T) is the temperature-dependent coefficient in form B(T) = A 1 + A 2 Á (T/100) + A 3 Á (T/100) 2 , and C is the temperature-independent coefficient.…”

Section: Density Molar Volume Thermal Expansibilitysupporting

confidence: 90%

“…In practice, we have found only two papers, i.e., the isothermal-isobaric (T = 303.15 K, p = 101.3 MPa) data of Hamann and Smith [32] (Aime method) and isothermal (T = 303.15 K, p up to 40 MPa) data of Compostizo et al [33] (direct measurements by means of a vibrating-tube densimeter). It appears that the values of density obtained by us are in satisfactory agreement with those obtained directly by Compostizo et al [33]; the comparison gave an AAD = 0.04%. However, the deviations show a systematic shift, i.e., the values of Compostizo et al [33] are smaller, and simultaneously, the higher pressure the higher deviations (À0.017% at p = 0.1 MPa and À0.059% at p = 40 MPa).…”

Section: Density Molar Volume Thermal Expansibilitymentioning

confidence: 99%

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The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

Zorębski

Dzida

2012

The Journal of Chemical Thermodynamics

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Section: Density Molar Volume Thermal Expansibilitysupporting

confidence: 90%

Section: Density Molar Volume Thermal Expansibilitymentioning

confidence: 99%

The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

Zorębski

Dzida

2012

The Journal of Chemical Thermodynamics

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“…Relative deviations between experimental data, ρ exp , and values, ρ cal , calculated with eq for the density of 1-dodecanol as a function of temperature: square - this work; red open circle - Krafft; triangle - Costello and Bowden; inverted triangle - Geiseler et al; diamond - Findenegg; left-pointing triangle - Hales and Ellender; right-pointing triangle - Diaz Peña and Tardajos; hexagon - Gaikwad and Subrahmanyam; star - Matsuo and Makita; pentagon - Naziev et al; blue open circle - Liew et al; plus sign - Garg et al; cross - Saleh et al; asterisk - Compostizo et al …”

Section: Discussionmentioning

confidence: 95%

“…The experimental results are in good agreement with eq 1 with an AAD of 0.07% and an MAD of 0.17%. Data from Compostizo et al 22 were obtained at 298.15 K over the pressure range of 0.68 to 6.87 MPa with deviations ranging from 0.10 to 0.18%. The density data reported by Naziev et al 23 were consistently lower than those determined in this work and other datasets.…”

Section: Discussionmentioning

confidence: 99%

Density and Viscosity Measurements of 1-Dodecanol and 1,12-Dodecanediol at Temperatures of up to 573.15 K and Pressures of up to 10 MPa

Meng

Liang

et al. 2020

J. Chem. Eng. Data

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The density and viscosity of liquid 1-dodecanol and 1,12dodecanediol were reported, which were obtained simultaneously by using a vibrating-wire viscometer. The measurements were determined at temperatures from 298.15 to 573.15 K for 1-dodecanol and 373.15 to 573.15 K for 1,12dodecanediol and at pressures from 0.1 to 10 MPa. The combined expanded uncertainties (k = 2) of the reported data for density and viscosity were estimated to be 0.26% and 2.1%, respectively. The density and viscosity data obtained in this work were correlated with the Tait-type equation and Andrade−Tait equation, respectively. The average absolute percentage deviation of the density data from the correlations were 0.08% for 1-dodecanol and 0.06% for 1,12-dodecanediol, and the average absolute percentage deviation of the viscosity data from the correlations were 0.64% for 1-dodecanol and 0.67% for 1,12-dodecanediol. The correlations were also used to compare the present results with the available literature data. An acceptable agreement between the present results and the literature data was observed. Finally, the derived properties of isobaric expansibility and isothermal compressibility were derived based on the Tait-type equation of this work.

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“…The density was determined by using the Compostizo method. 24,25 The thin film had a nominal thickness of 34.5 Å. Upon energy minimization using the COMPASS force field, the thin film was assembled with respective alumina slabs.…”

Section: Simulation Models and Methodsmentioning

confidence: 99%

Molecular Dynamics Study on the Effect of Solvent Adsorption on the Morphology of Glycothermally Produced α-Al₂O₃ Particles

Choi

2008

J. Phys. Chem. C

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Molecular dynamics simulation was applied to study the relative growth rates of seven crystal faces of R-Al 2 O 3 in the presence of 1,4-butanediol. In particular, the adsorption energy of 1,4-butanediol on various crystal faces was computed using 200 solvent molecules. The following sequence was obtained: (E ads (012) > E ads (001) > E ads (102) > E ads (113) > E ads (110) > E ads (111) > E ads (010)). The above sequence is in the reverse order of the experimentally observed growth rates of the respective faces. The two faces that exhibit the lowest adsorption energy (i.e., ( 111) and ( 010) faces) are the ones that do not emerge in the final morphology of R-Al 2 O 3 particles in practice. On examination of the data, it was found that 1,4-butanediol molecules preferentially adsorb onto the crystal faces that have larger numbers of octahedral faces per unit area (e.g., the (001) face). In other words, the binding of the growth units of R-Al 2 O 3 onto such crystal faces is less favorable than the other crystal faces. In addition to the adsorption energy, our results show that the growth habits are also influenced by the mobility of 1,4-butanediol near the crystal growth faces. In fact, the computed diffusion coefficients of 1,4-butanediol near the ( 012) and ( 102) faces are the lowest compared to those of the ( 001), (110), and ( 113) faces. This may explain why ( 012) and (102) faces do not emerge unless moderate stirring is applied. Nevertheless, the above conclusions were draw based upon cleaved R-alumina surfaces without relaxation (i.e., surface energy effects of the solid substrate were not included).

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Density−Pressure Relationship in Hydrogen-Bonded Mixtures: 1,4-Butanediol + 1-Dodecanol

Cited by 7 publications

References 12 publications

The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

Density and Viscosity Measurements of 1-Dodecanol and 1,12-Dodecanediol at Temperatures of up to 573.15 K and Pressures of up to 10 MPa

Molecular Dynamics Study on the Effect of Solvent Adsorption on the Morphology of Glycothermally Produced α-Al₂O₃ Particles

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Density−Pressure Relationship in Hydrogen-Bonded Mixtures: 1,4-Butanediol + 1-Dodecanol

Cited by 7 publications

References 12 publications

The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

The effect of temperature and pressure on acoustic and thermodynamic properties of 1,4-butanediol. The comparison with 1,2-, and 1,3-butanediols

Density and Viscosity Measurements of 1-Dodecanol and 1,12-Dodecanediol at Temperatures of up to 573.15 K and Pressures of up to 10 MPa

Molecular Dynamics Study on the Effect of Solvent Adsorption on the Morphology of Glycothermally Produced α-Al2O3 Particles

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Molecular Dynamics Study on the Effect of Solvent Adsorption on the Morphology of Glycothermally Produced α-Al₂O₃ Particles