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Vacancy solution theory

Thus, contributions include accounting for adsorbent heterogeneity [Valenzuela et al., AIChE J., 34, 397 (1988)] and excluded pore-volume effects [Myers, in Rodrigues et al., gen. refs.]. Several activity coefficient models have been developed to account for nonideal adsorbate-adsorbate interactions including a spreading pressure-dependent activity coefficient model [e.g., Talu and Zwiebel, AIChE h 32> 1263 (1986)] and a vacancy solution theory [Suwanayuen and Danner, AIChE J., 26, 68, 76 (1980)]. [Pg.16]

The problem of predicting multicomponent adsorption equilibria from single-component isotherm data has attracted considerable attention, and several more sophisticated approaches have been developed, including the ideal adsorbed solution theory and the vacancy solution theory. These theories provide useful quantitative correlations for a number of binary and ternary systems, although available experimental data are somewhat limited. A simpler but purely empirical approach is to use a modified form of isotherm expression based on Langmuir-Freundlich or loading ratio correlation equations ... [Pg.34]

The adsorption of gas mixtures has been extensively studied. For example, Wendland et al. [64] applied the Bom—Green—Yvon approach using a coarse grained density to study the adsorption of subcritical Lennard-Jones fluids. In a subsequent paper, they tested their equations with simulated adsorption isotherms of several model mixtures [65]. They compared the adsorption of model gases with an equal molecular size but different adsorption potentials. They discussed the stmcture of the adsorbed phase, adsorption isotherms, and selectivity curves. Based on the vacancy solution theory [66], Nguyen and Do [67] developed a new technique for predicting the multicomponent adsorption equihbria of supercritical fluids in microporous carbons. They concluded that the degree of adsorption enhancement, due to the proximity of the pore... [Pg.69]

Ding, L.P. and Bhatia, S.K. (2001). Apphcation of heterogeneous vacancy solution theory to characterization of microporous solids. Carbon, 39, 2215—29. [Pg.75]

We start this book with a chapter (Chapter 2) on the fundamentals of pure component equilibria. Results of this chapter are mainly applicable to ideal solids or surfaces, and rarely applied to real solids. Langmuir equation is the most celebrated equation, and therefore is the cornerstone of all theories of adsorption and is dealt with first. To generalise the fundamental theory for ideal solids, the Gibbs approach is introduced, and from which many fundamental isotherm equations, such as Volmer, Fowler-Guggenheim, Hill-de Boer, Jura-Harkins can be derived. A recent equation introduced by Nitta and co-workers is presented to allow for the multi-site adsorption. We finally close this chapter by presenting the vacancy solution theory of Danner and co-workers. The results of Chapter 2 are used as a basis for the... [Pg.7]

Following the Gibbs approach, we will show the vacancy solution theory developed by Suwanayuen and Danner in 1980. Basically in this approach the system is assumed to consist of two solutions. One is the gas phase and the other is the adsorbed phase. The difference between these two phases is the density. One is denser than the other. In the context of this theory, the vacancy solution is composed of adsorbates and vacancies. The latter is an imaginary entity defined as a vacuum space which can be regarded as the solvent of the system. [Pg.12]

Recognizing the deficiency of the extended Langmuir equation, despite its sound theoretical footing on basic thermodynamics and kinetics theories, and the empiricism of the loading ratio correlation, other approaches such as the ideal adsorbed solution theory of Myers and Prausnitz, the real adsorption solution theory, the vacancy solution theory and the potential theory have been proposed. In this section we will discuss the ideal adsorbed solution theory and we first develop some useful thermodynamic equations which will be used later to derive the ideal adsorbed solution model. [Pg.198]

In the past 30 years, great efforts have been expended to develop techniques for predicting the multicomponent adsorption equilibria based on pure component data. However, until now only limited success has been achieved. Several publications provide good reviews of the work in this area [1,2,5]. Generally speaking, these models can be classified into four groups (1) Vacancy solution theory, (2) statistical models, (3) ideal adsorbed solution theory (lAST), (3) Polanyi theory, and (4) various empirical or semiempirical models,... [Pg.407]

The vacancy solution theory or vacancy solution model (VSM) was proposed by Suwanayuen and Danner [6,7] and later modified by Cochran et al. [8], The isosteric heat of adsorption of this model was obtained by Talu and Kabel [9]. In this theory. [Pg.407]

The vacancy solution theory was developed by Suwanayuen and DanneE as a method of predicting multicomponent adsorption equilibria from singlecomponent isotherms without the assumption of an ideal adsorbed phase. A somewhat different analysis is given here although the essential features of the model are retained. [Pg.72]

FIGURE 4.21. X-Y diagram for adsorption of O2-CO on lOX zeolite at 144 K, 760 torr, showing comparison of experimental data of Danner and Wenzel (O), with theoretical predictions of ideal adsorbed solution theory (—), vacancy solution theory without sorbate-... [Pg.117]

The same is true of the classical Myers-Prausnitz theory with activity coefficients introduced in order to account for nonideality of the adsorbed phase and of the general statistical model [Eq. (4.17)] with the cross coefficients retained as parameters. Since the cross coefficients cannot, as yet, be predicted theoretically from the single-component isotherms, this reduces somewhat the predictive value of these models. However, it has been shown that, for the system N2-O2-CO-IOX, the vacancy solution theory with the cross coefficients evaluated from limited binary data provides a good prediction of the ternary equilibrium data. The same approach may be extended to multicomponent systems provided data for all constituent binaries are available. The vacancy solution theory thus provides a practically useful means of data correlation and makes possible the prediction of multicomponent equilibrium behavior from binary data. The potential for the application of classical solution theory or of the statistical models in a similar way has not yet been investigated to the same extent. [Pg.120]

Suwanayuen, S., and Danner, R.P., Gas adsorption isotherm equation based on vacancy solution theory, AIChE J.,26(l), 68-83 (1980). [Pg.981]

Cochran, T.W. Kabel, R.L., and Danner, R.P.. Vacancy solution theory of adsorption using Flory-Huggins activity coefficient equations, AlChE J., 31(2). 268-277 (1985). [Pg.984]

See other pages where Vacancy solution theory is mentioned: [Pg.1508]    [Pg.1330]    [Pg.1512]    [Pg.903]    [Pg.72]    [Pg.117]    [Pg.118]    [Pg.118]    [Pg.119]    [Pg.120]    [Pg.120]    [Pg.503]   
See also in sourсe #XX -- [ Pg.72 , Pg.73 , Pg.74 , Pg.118 , Pg.119 ]



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