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Subject is focused on issues concerning determination of the porous material texture properties including description of gas transport in porous solids. Basic characterization and description of the porous material texture properties by the physical sorption of inert gases, mercury porosimetry and helium pycnometry belongs to the main topic of this subject. The integral part is also application of theoretical knowledge for evaluation of the real data of porous solids with pores in the range from 0.3 nm to 100 m.
Last update: TAJ111 (17.09.2015)
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The students will be able to:
1. Know the basic issues and the possibility of the textural properties determination of porous solids. 2. Select and apply the appropriate characterization method to process obtained experimental data obtained and to evaluate the textural properties of any porous material. 3. Znát základní popis transportních jevů v pórech včetně jejich využití pro stanovení transportních parametrů porézních materiálů Know the basic description of transport phenomena in the pores, including their application for determination of the porous materials transport parameters. Last update: TAJ111 (17.04.2014)
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Final oral exam. Last update: TAJ111 (11.04.2014)
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S. Lowell, J.E.Shields, M. A. Thomas. M. Thommes:Characterization of Porous Solids and Powders; Surface Area, Pore Size and Density Kluwer Academic Publishers, 2004 Gas Transport in Porous Media. (Ho, C.K. - Webb, S.W., Ed.), Springer, Dordrecht 2006. F. Rouquerol, J. Rouquerol & K. Sing: Adsorption by Powders & Porous Solids: Principles, Methodology and Applications. Academic Press, GB, Cornwall, Bodmin 1999. Duong D. Do: Adsorption Analysis: Equilibria and Kinetics. Imperial College Press, London 1998.D:
Last update: TAJ111 (17.09.2015)
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1. Introduction of the material texture properties theme. 2. Physical adsorption of inert gases and its mechanism. 3. Types of adsorption isotherms, Langmuirova adsorption isotherm. 4. Isotherm BET, SBET.evaluation 5. Microporous sorbents, application of SBET , three parameters BET. 6. Comparative methods (α - plot, t - plot), reference isotherms. 7. DistribucePore-size distribution of mezo- a mikropores, DFT methods. 8. Mercury porozimetry and helium pycnometry. 9. Practical demonstration of methods. 10. Introduction into description of transport phenomena in pores. 11. Graham’s a Wicke-Kallenbach cell, diffusion in pores. 12. Chromatographic method of the diffusion measurement in dynamic regime. 13. Permeation of gases. 14. Practical demonstration of mwethods for the transport parameter evaluation.
Last update: TAJ111 (11.04.2014)
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Teacher provides PDF copies of lectures. Last update: TAJ111 (11.04.2014)
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