Abstract
Development and study of novel nanoporous adsorbents is a very challenging goal of current material science research. Among these materials are new alumosilicates, alumo- and iron phosphates, MCMs, SBAs, MOFs, carbon sieves, etc., with the pore size of few nanometers. Less progress is made in developing new adsorbents with relatively large pores of 7-20 nm.
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References
US Patent N 1,740,351. (1929) Dehydrating substance, H. Isobe, Dec. 17.
Levitskii E.A., Aristov Yu. I., Tokarev M.M., Parmon V.N. (1996) Sol. Energy Mater. Sol.Cells 44, N 3, pp. 219–235.
Aristov Yu. L, Tokarev M.M., Cacciola G., Restuccia G. (1996) Selective water sorbents for multiple applications: 1. CaCl2 confined in mesopores of the silica gel: sorption properties, React. Kinet. Cat. Lett. 59, N 2, pp. 325–334.
Aristov Yu., Tokarev M.M., Cacciola G., Restuccia G. (1996) Selective water sorbents for multiple applications: 2. CaCl2 confined in micropores of the silica gel: sorption properties, React. Kinet. Cat. Lett. 59, N 2, pp. 335–342.
Aristov Yu. I. (2003) Thermochemical energy storage: new processes and materials, Doctoral Thesis, Boreskov Institute of Catalysis, Novosibirsk, 375p.
Gordeeva L.G., (2000) New materials for thermochemical energy storage, Ph. D.thesis, Boreskov Institute of Catalysis, 146p.
Aristov Yu. I., Restuccia G., Cacciola G., Parmon V.N. (2002) A family of new working materials for solid sorption air conditioning systems, Appl. Therm.Engn. 22, N 2, pp. 191–204.
Aristov Yu. I., Tokarev M.M., Gordeeva L.G., Snitnikov V.N., Parmon V.N. (1999) New composite sorbents for solar-driven technology of fresh water production from the atmosphere, Solar Energy 66, N 2, pp 165–168.
Kaerger J., Ruthven D.M. (1992) Diffusion in Zeolites and Other Microporous Solids, Wiley, N.Y
Koptyug I.V., Khitrina L. Yu., Aristov Yu. I., Tokarev M.M., Iskakov K.T., Parmon V.N., Sagdeev R.Z. (2000) 1H/ NMR microimaging study of water vapor sorption by individual porous pellets, J. Phys. Chem. 104, pp. 1695–1700.
Aristov Yu. I., Koptyug I.V., Glaznev I.S., Gordeeva L.G., Tokarev M.M., Ilyina L. Yu. (2002) 1H/ NMR microimaging for studying the water transport in an adsorption heat pump // Proc. Int. Conf. Sorption Heat Pumps, Sept 23-27 Shanghai, China, pp. 619–624.
Galvosas P., Stallmach F., Seiffert G., Kärger J., Kaess U., Majer G. (2001) Generation and Application of Ultra-High-Intensity Magnetic Field Gradient Pulses for NMR Spectroscopy, J. Magn. Reson. 151, pp. 260–268.
Dawoud B., Aristov Yu. I. (2003) Experimental study on the kinetics of water vapour sorption on selective water sorbents, silica gel and alumina under typical operating conditions of adsorption heat pumps, Int.J.Heat&Mass Transfer 46, pp. 273–281.
Crank J. (1975) The Mathematics of Diffusion, Oxford Univ. Press, pp. 230–238.
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ARISTOV, Y. et al. (2006). DYNAMICS OF WATER SORPTION ON COMPOSITES “CaCl2IN SILICA”: SINGLE GRAIN, GRANULATED BED, CONSOLIDATED LAYER. In: Conner, W.C., Fraissard, J. (eds) Fluid Transport in Nanoporous Materials. NATO Science Series II: Mathematics Physics and Chemistry, vol 219. Springer, Dordrecht. https://doi.org/10.1007/1-4020-4382-1_25
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