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Author Tarasevich, Yu. I. ♦ Doroshenko, V. E. ♦ Rudenko, V. M. ♦ Ivanova, Z. G.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword ENVIRONMENTAL SCIENCES ♦ MATERIALS SCIENCE ♦ ALUMINIUM CHLORIDES ♦ SORPTIVE PROPERTIES ♦ GASEOUS WASTES ♦ ADSORPTION ♦ AIR POLLUTION ABATEMENT ♦ MONTMORILLONITE ♦ ADSORPTION ISOTHERMS ♦ ALUMINIUM HYDROXIDES ♦ CATALYTIC EFFECTS ♦ HETEROGENEOUS CATALYSIS ♦ HEXANE ♦ INORGANIC ION EXCHANGERS ♦ ION EXCHANGE ♦ MICROSTRUCTURE ♦ POROSITY ♦ WATER VAPOR ♦ X-RAY DIFFRACTION ♦ ALKANES ♦ ALUMINIUM COMPOUNDS ♦ CATALYSIS ♦ CHLORIDES ♦ CHLORINE COMPOUNDS ♦ CLAYS ♦ COHERENT SCATTERING ♦ CRYSTAL STRUCTURE ♦ DIFFRACTION ♦ FLUIDS ♦ GASES ♦ HALIDES ♦ HALOGEN COMPOUNDS ♦ HYDROCARBONS ♦ HYDROGEN COMPOUNDS ♦ HYDROXIDES ♦ ION EXCHANGE MATERIALS ♦ ISOTHERMS ♦ MATERIALS ♦ ORGANIC COMPOUNDS ♦ OXYGEN COMPOUNDS ♦ POLLUTION ABATEMENT ♦ SCATTERING ♦ SORPTION ♦ SURFACE PROPERTIES ♦ VAPORS ♦ WASTES 500200* -- Environment, Atmospheric-- Chemicals Monitoring & Transport-- (-1989) ♦ Other MaterialsStructure & Phase Studies
Abstract Sorbents based on montmorillonite and basic aluminum chlorides with platelike micropores 0.77 nm thick were synthesized. The parameters of the primary and secondary pore structure of these materials were estimated from adsorption and x-ray data. A method was proposed for estimating the amount of initial montmorillonite stacks and stacks modified by the basic aluminum cations.
Educational Use Research
Learning Resource Type Article
Publisher Date 1986-11-01
Publisher Place United States
Journal Colloid J. USSR
Volume Number 48
Issue Number 3
Organization Institute of Colloid Chemistry and Water Chemistry, Kiev, USSR


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