Adsorption Equilibrium of Water Vapor on F-200 Activated Alumina

Serbezov, Atanas

doi:10.1021/je025616d

Cited by 49 publications

(49 citation statements)

References 6 publications

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“…The design of PSA units is often facilitated by the use of dynamic adsorber models (Serbezov andSotirchos, 1997, 1999). These models require information for the adsorption equilibrium in the form of an adsorption isotherm equation that calculates the equilibrium loading at given temperature and pressure.…”

Section: Introductionmentioning

confidence: 99%

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

Moore

Serbezov

2005

Adsorption

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Single component adsorption equilibrium data for water vapor on commercially available activated alumina F-200 measured in a previous study (Serbezov, 2003) is correlated by two adsorption isotherm equations, both of which are based on the adsorption potential theory. The first equation is the well known Dubinin-Astakhov (D-A) equation. The second equation is obtained from a methodology proposed by Kotoh et al. (1993). It is referred to as a dual mechanism adsorption potential (DMAP) equation because it is a linear combination of two D-A terms with n = 1 where each term accounts for a specific mechanism of water retention. The D-A equation has two fitting parameters; the DMAP equation has three fitting parameters. The DMAP model provides a better fit for the adsorption data than the D-A model, while neither model describes the desorption data well. Analysis of the DMAP equation parameters shows that most of the water is retained by virtue of capillary condensation. In addition to fitting the experimental data, the heat of adsorption was calculated as function of the relative humidity and adsorbent loading. When capillary condensation is present, the heat of adsorption is only slightly higher than the latent heat of vaporization.

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Section: Introductionmentioning

confidence: 99%

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

Moore

Serbezov

2005

Adsorption

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“…The experimental desorption data obtained by Serbezov [19] indicates that irreversible chemical adsorption occurs because some amount of the adsorbed water remains at the end of desorption (Fig. 3).…”

Section: F-g Desorption Equation and Fitting Resultsmentioning

confidence: 94%

“…The F-G equation is used to fit the water adsorption data on the alumina F-200 measured by Serbezov [19]. The experimental data of water vapor adsorption and desorption on alumina F-200 at four different temperatures are obtained by using the static gravimetric technique.…”

Section: Adsorption Equilibrium Model and Fitting Resultsmentioning

confidence: 99%

“…H 2 O/CO 2 binary adsorption isotherm equations are obtained by combining the F-G equation for water vapor and the Freundlich equation for CO 2 . The experimental data of Serbezov [19] for water vapor adsorption and desorption based on alumina F-200 are used to verify the proposed equations. The prediction results show that the F-G equation and derived equations properly describe water vapor equilibriums on alumina F-200.…”

Section: Introductionmentioning

confidence: 99%

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A comprehensive description of water vapor equilibriums on alumina F-200: Adsorption, desorption, and H2O/CO2 binary adsorption

Liu

Shi

Kalbassi

et al. 2014

Separation and Purification Technology

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“…Owning to the large enthalpy changes of the heavy components, one can readily use thermal profiles to infer H 2 O and CO 2 mass transfer fronts. Herein, we chose activated alumina CDX and F200, respectively, as the prelayers because of their wide application in adsorption based driers …”

Section: Resultsmentioning

confidence: 99%

The role of water on postcombustion CO₂ capture by vacuum swing adsorption: Bed layering and purge to feed ratio

Xiao

Zhang

et al. 2013

AIChE Journal

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The influence of water vapor on the adsorption of CO 2 in carbon capture by vacuum swing adsorption (VSA) was described. VSA experiments with single and multilayered columns using alumina and zeolite 13X were conducted to understand the migration of water. The penetration depth of water in the column could be controlled by maintaining the purge-to-feed ratio above a critical value. At high water content in the feed (>4%), employment of a water adsorbing prelayer was essential to prevent failure of the carbon capture process. A simple axial working capacity model predicts the penetration depth of water in the column for a given feed temperature and adsorption isotherm, and the layering ratio can be selected accordingly. Although water is detrimental to CO 2 capture with polar adsorbents, long-term recovery of CO 2 is still possible by appropriate layering and ensuring an adequate purge-to-feed ratio.Note: vacuum level decreases in the order of Run 5,7,8,9, and 10. (b) Dependence of CO 2 productivity, purity, and recovery on volumetric purge-to-feed ratio at CSS of single-layer 13X VSA processes with 3.5% water feed at 30 C. [Color figure can be viewed in the online issue, which is available at wileyonlinelibrary.com.] 678

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Adsorption Equilibrium of Water Vapor on F-200 Activated Alumina

Cited by 49 publications

References 6 publications

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

A comprehensive description of water vapor equilibriums on alumina F-200: Adsorption, desorption, and H2O/CO2 binary adsorption

The role of water on postcombustion CO₂ capture by vacuum swing adsorption: Bed layering and purge to feed ratio

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Adsorption Equilibrium of Water Vapor on F-200 Activated Alumina

Cited by 49 publications

References 6 publications

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

Correlation of Adsorption Equilibrium Data for Water Vapor on F-200 Activated Alumina

A comprehensive description of water vapor equilibriums on alumina F-200: Adsorption, desorption, and H2O/CO2 binary adsorption

The role of water on postcombustion CO2 capture by vacuum swing adsorption: Bed layering and purge to feed ratio

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The role of water on postcombustion CO₂ capture by vacuum swing adsorption: Bed layering and purge to feed ratio