Accurate calculation of second virial coefficient of the Exp-6 potential and its application

Мамедов, Б. А.; Somuncu, Elif

doi:10.1016/j.physa.2014.11.014

Cited by 11 publications

(11 citation statements)

References 50 publications

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“…al., 2001;Glasser, 2002;Mi, et. al., 2008;Hutem and Boonchui, 2012;Mamedov and Somuncu, 2014;Mamedov and Somuncu, 2015).…”

Section: The Results Obtained For 2 ()mentioning

confidence: 99%

“…which was applied before theoretical studies (Mamedov and Somuncu, 2014;Mamedov and Somuncu, 2015). Then, we obtain the following simply structured formula:…”

Section: Expression For the Second Virial Coefficient Over Sutherland Potentialmentioning

confidence: 99%

“…al., 1954;Vargas et. al., 2001;Mamedov and Somuncu, 2015). Many experimental and theoretical studies have been developed to precisely determine the second virial coefficient of real gases (Vargas et.…”

Section: Introductionmentioning

confidence: 99%

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Analytical Evaluation of Second Virial Coefficient Using Sutherland Potential and Its Application to Real Gases

Somuncu¹

2018

AKU-J. Sci. Eng.

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A simple and efficient analytical formula for the calculation of second virial coefficient over Sutherland potential is derived. The compute conclusions of the second virial coefficient determined for Sutherland potential are compared with calculations of second virial coefficient using Lennard-Jones (12-6) potential and Exp-6 potential. The accuracy of the analytical formula is tested by application to molecules ,, Kr Xe Ne and Ar. The results of the calculations for wide temperature range show excellent agreement with the data existing in the literature.

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“…al., 2001;Glasser, 2002;Mi, et. al., 2008;Hutem and Boonchui, 2012;Mamedov and Somuncu, 2014;Mamedov and Somuncu, 2015).…”

Section: The Results Obtained For 2 ()mentioning

confidence: 99%

“…which was applied before theoretical studies (Mamedov and Somuncu, 2014;Mamedov and Somuncu, 2015). Then, we obtain the following simply structured formula:…”

Section: Expression For the Second Virial Coefficient Over Sutherland Potentialmentioning

confidence: 99%

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Analytical Evaluation of Second Virial Coefficient Using Sutherland Potential and Its Application to Real Gases

Somuncu¹

2018

AKU-J. Sci. Eng.

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“…The evaluation of the virial coefficients is an important issue to determine intermolecular interactions with arbitrary values of temperature and thermodynamic properties of real gases [1][2][3][4][5][6][7][8]. In literature, several experimental and theoretical methods have been proposed to obtain accurate and efficient evaluation of the second virial coefficient with various types of potentials [9][10][11][12][13][14][15][16]. The Lennard-Jones (2n-n) potential that is important to define the interaction between simple spherical molecules only, has been widely studied by both experimental and theoretical methods [17].…”

Section: Introductionmentioning

confidence: 99%

Unified Analytical Formulae of Second Virial Coefficient with Kihara Potential and its Application to Real Gases

2020

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We propose a general evaluation method to calculate the second virial coefficient with Kihara potential (spherical core). The suggested approach is based on exponential function series expansion formula and gamma functions, which enable us to have accurate evaluation of the second virial coefficient. The results of second virial coefficient determined from Kihara potential are compared with the calculations of second virial coefficient with Lennard-Jones (12-6) potential. The analytical formula allows an accurate determination of Boyle temperature of gases. The accuracy of the obtained formula is tested by its application to gases Ar, Kr, Ne, CH4, C6H6, C3H8, n-C4H10, and n-C5H12. The results of the second virial coefficient in a wide temperature range and Boyle temperature are in good agreement with the data available in the literature.

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“…There are several recent works about second order coefficients for diverse systems including inert gases, alkanes, methane in water solution, and polymer solutions. [9,10,[12][13][14] Distinct interaction models have been recently analyzed in this context: hard spheres with dipolar momentum, [15][16][17] exponential potential, [18] and the Asakura-Oosawa model for colloids. [9][10][11]19] One of the most studied interaction models for simple fluids is the LJ.…”

Section: Introductionmentioning

confidence: 99%

Virial series for inhomogeneous fluids applied to the Lennard-Jones wall-fluid surface tension at planar and curved walls

Urrutia

Paganini

2016

The Journal of Chemical Physics

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We formulate a straightforward scheme of statistical mechanics for inhomogeneous systems that includes the virial series in powers of the activity for the grand free energy and density distributions. There, cluster integrals formulated for inhomogeneous systems play a main role. We center on second order terms that were analyzed in the case of hard-wall confinement, focusing in planar, spherical and cylindrical walls. Further analysis was devoted to the Lennard-Jones system and its generalization the 2k-k potential. For this interaction potentials the second cluster integral was evaluated analytically. We obtained the fluid-substrate surface tension at second order for the planar, spherical and cylindrical confinement. Spherical and cylindrical cases were analyzed using a series expansion in the radius including higher order terms. We detected a ln R −1 /R 2 dependence of the surface tension for the standard Lennard-Jones system confined by spherical and cylindrical walls, no matter if particles are inside or outside of the hard-walls. The analysis was extended to bending and Gaussian curvatures, where exact expressions were also obtained.

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Accurate calculation of second virial coefficient of the Exp-6 potential and its application

Cited by 11 publications

References 50 publications

Analytical Evaluation of Second Virial Coefficient Using Sutherland Potential and Its Application to Real Gases

Analytical Evaluation of Second Virial Coefficient Using Sutherland Potential and Its Application to Real Gases

Unified Analytical Formulae of Second Virial Coefficient with Kihara Potential and its Application to Real Gases

Virial series for inhomogeneous fluids applied to the Lennard-Jones wall-fluid surface tension at planar and curved walls

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