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Hysteretic moisture properties of porous materials: Part II. Condensation potentials

Funk, Max

In this article, the condensation potential for a multiphase moisture sorption system is investigated. The moisture content of a porous material can be imagined as system state, moving through the hill-and-valley landscape of the potential. The condensation potential is determined in linear approximation from the general formula of Part I. Then, the potential is calculated in a unified manner for a broad range of physical moisture sorption mechanisms described in the literature: Van der Waals, capillary condensation, surface sorption, micropore sorption and chemisorption (diffusion–reaction). Non-hysteretic and hysteretic cases are considered. The condensation potentials are illustrated with examples.

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Hysteretic moisture properties of porous materials: Part II. Condensation potentials

Funk, Max

In this article, the condensation potential for a multiphase moisture sorption system is investigated. The moisture content of a porous material can be imagined as system state, moving through the hill-and-valley landscape of the potential. The condensation potential is determined in linear approximation from the general formula of Part I. Then, the potential is calculated in a unified manner for a broad range of physical moisture sorption mechanisms described in the literature: Van der Waals, capillary condensation, surface sorption, micropore sorption and chemisorption (diffusion–reaction). Non-hysteretic and hysteretic cases are considered. The condensation potentials are illustrated with examples.

Hysteretic moisture properties of porous materials: Part II. Condensation potentials

Funk, Max

In this article, the condensation potential for a multiphase moisture sorption system is investigated. The moisture content of a porous material can be imagined as system state, moving through the hill-and-valley landscape of the potential. The condensation potential is determined in linear approximation from the general formula of Part I. Then, the potential is calculated in a unified manner for a broad range of physical moisture sorption mechanisms described in the literature: Van der Waals, capillary condensation, surface sorption, micropore sorption and chemisorption (diffusion–reaction). Non-hysteretic and hysteretic cases are considered. The condensation potentials are illustrated with examples.

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Title:

Hysteretic moisture properties of porous materials: Part II. Condensation potentials

Contributors:

Funk, Max (author)

Published in:

Journal of Building Physics ; 39 ; 207-241

Publication date:

2015-11-01

Size:

35 pages

ISSN:

1744-2591 , 1744-2583

DOI:

https://doi.org/10.1177/1744259114527809

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

moisture , domain theory , Hysteresis , thermodynamic potential , sorption , condensation potential , thermodynamics

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