MATRIX CALCULATION OF MULTICOMPONENT TRANSIENT DIFFUSION IN POROUS SORBENTS.
Author(s) : WONG T., FREY D. D.
Type of article: Article
Summary
THE LINEARIZED THEORY OF MASS TRANSFER DESCRIBED BY STEWART AND CO-WORKERS IS EMPLOYED TO DEVELOP GENERAL MATRIX METHODS WHICH EXTEND APPROXIMATIONS FOR UNSTEADY-STATE BINARY DIFFUSION IN POROUS SORBENTS TO CASES INVOLVING MULTICOMPONENT INTERACTIONS. THE ACCURACY OF THESE EXTENDED APPROXIMATIONS AND THEIR SUITABILITY AS A SIMPLE, EFFICIENT METHOD TO ACCOUNT FOR MULTICOMPONENT INTRAPARTICLE DIFFUSION WHEN SIMULATING SORPTION PROCESSES WAS INVESTIGATED FOR ION-EXCHANGE MASS TRANSFER. A NEW APPROXIMATION FOR BINARY INTRAPARTICLE DIFFUSION IS ALSO DEVELOPED AND EVALUATED.
Details
- Original title: MATRIX CALCULATION OF MULTICOMPONENT TRANSIENT DIFFUSION IN POROUS SORBENTS.
- Record ID : 1990-1837
- Languages: English
- Source: International Journal of Heat and Mass Transfer - vol. 32 - n. 11
- Publication date: 1989/11
Links
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Indexing
- Themes: Mass transfer
- Keywords: Calculation; Mass transfer; Adsorption; Sorption; Porous medium
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