Boreskov Institute of Catalysis, Siberian Branch, Russian Academy of Sciences, 630090 Novosibirsk, Russia

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Bog'liq
Efficient Adsorbent-Desiccant Based on Aluminium O

2018
,

34
, doi:10.1051/e3sconf/20183402049.
28.
Wang, L.; Shi, C.; Wang, L.; Pan, L.; Zhang, X.; Zou, J. Rational design, synthesis, adsorption principles and applications of
metal oxide adsorbents: A review
Nanoscale
2020
,
12
, 4790–4815, doi:10.1039/C9NR09274A.
29.
Hami, H.K.; Abbas, R.F.; Eltayef, E.M.; Mahdi, N.I. Applications of aluminium oxide and nano aluminium oxide as adsor-
bents: Review.
Samarra J. Pure Appl. Sci.
2020
,
2
, 19–32.
30.
Abuzov, A.M. Aluminium Oxide and Alumina Ceramics (review). Part 1. Properties of Al
2
O
3
and Commercial Production of
Dispersed Al
2
O
3
.
Refract. Ind. Ceram.
2019
,
60
, 24–32, doi:10.1007/s11148-019-00304-2.
31.
Wasserman, I.M.
Chemical Deposition from Solutions
; Chemistry: Leningrad, Russia, 1980; p. 208.
32.
Schüth, F.; Sing, K.S.W.; Weitkamp, J.
Handbook of Porous Solids
; Wiley-Vch: Weinheim, Germany, 2002; pp. 1591–1677, ISBN
9783527302468.
33.
Senyuta, A.; Panov, A.; Suss, A.; Layner, Y. Innovative technology for alumina production from low-grade raw materials.

In

Light Metals 2013
; Springer: Cham, Switzerland, 2016; pp. 203–208, doi:10.1007/978-3-319-65136-1_36.
34.
Zolotovsky, B.P.; Bukhtiyarova, G.A.; Buyanov, R.A.; Murin, V.I.; Grunvald, V.R.; Efremova, L.V. Method for Obtaining
Spherical Aluminium Oxide. R.U. Patent RU2096325C1, 20 November 1997.
35.
Icaev, B.N.; Kuyazev, V.M.; Moroz, E.M.; Murin, V.I.; Grunvald, V.R.; Efremova, L. Method of Preparing Granulated Activated
Alumina. G.B. Patent GB1599374A, 30 September 1981.
36.
Lakhmostov, V.S.; Tanashev, Y.Y.; Sokolov, D.N.; Danilevich, V.V.; Zolotarskij, I.A.; Parmon, V.N. Method and Device for
Pulse Heat Treatment of Loose Materials. R.U. Patent RU2264589C1, 20 November 2005.
37.
Lakhmostov, V.S.; Tanashev, Y.Y.; Sokolov, D.N.; Danilevich, V.V.; Zolotarskij, I.A.; Parmon, V.N. Device for Pulsed Heat
Treatment of Bulk Materials. R.U. Patent RU2360196C2, 27 June 2009.
38.
Pinakov, V.I.; Stoyanovsky, O.I.; Tanashev, Y.Y.; Pikarevsky, A.A.; Grinberg, B.E.; Dryab, V.N.; Kulik, K.V.; Danilevich, V.V.;
Kuznetsov, D.V.; Parmon, V.N. TSEFLAR
TM
—the centrifugal flash reactor for rapid thermal treatment of powdered materials.
Chem. Eng. J.
2005
,
107
, 157–161, doi:10.1016/j.cej.2004.12.026.
39.
Kul'ko, E.V.; Ivanova, A.S.; Kruglyakov, V.Y.; Moroz, E.M.; Shefer, K.I.; Litvak, G.S.; Kryukova, G.N.; Tanashev, Y.Y.; Parmon,
V.N. Synthesis of aluminium oxides from the products of the rapid thermal decomposition of hydrargillite in a centrifugal
flash reactor: II. Structural and textural properties of aluminium hydroxide and oxide obtained from the product of the cen-
trifugal thermal activation of hydrargillite (CTA product).
Kinet. Catal.
2007
,
48
, 316–326, doi.org:10.1134/S0023158407020176.

Appl. Sci.
2021
,
11
, 2457
22 of 23
40.
Mista, W.; Wrzyszcz, J. Rehydration of transition alumina obtained by flash calcination of gibbsite.
Thermochim. Acta
1999
,
331
,
67–72, doi:10.1016/S0040-6031(99)00052-0.
41.
Kharina, I.V.; Isupova, L.A.; Litvak, G.S.; Moroz, E.M.; Kryukova, G.N.; Rudina, N.A.; Tanashev, Y.Y.; Parmon, V.N. Synthesis
of aluminium oxides from the products of the rapid thermal decomposition of hydrargillite in a centrifugal flash reactor: III.
Properties of aluminium hydroxides and oxides obtained via the mild rehydration of the products of the centrifugal thermal
activation of hydrargillite.

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