Труды КНЦ (Технические науки вып.2/2023(14))
Труды Кольского научного центра РАН. Серия: Технические науки. 2023. Т. 14, № 2. С. 259-264. Transactions of the Kola Science Centre of RA s . Series: Engineering Sciences. 2023. Vol. 14, No. 2. P. 259-264. 16. ГороновскийИ. Т., Назаренко Ю. П., Некряч Е. Ф. Краткий справочник по химии / под общ. ред. ак. АН УССР А. Т. Пилипенко. Изд. 5-е, доп., перераб. Киев: Наукова думка, 1987. С. 612. 17. Бобылёв В. Н. Физические свойства наиболее известных химических веществ: Справочное пособие. М.: РХТУ им. Д. И. Менделеева, 2003. 24 с. 18. Грег С., Синг. Адсорбция, удельная поверхность, пористость: Пер. с англ. 2-е изд. М.: Мир, 1984. 306 с. References 1. Stajlz Elvin B. Nositeli i nanesennye katalizatory. Teoriya ipraktika [Supports and Supported Catalysts. Theory and practice]. Moscow, Chimiya, 1991, 240 p. (In Russ.). 2. Ivanova A. S. Oksid alyuminiya: primenenie, sposoby polucheniya, struktura i kislotno-osnovnye svojstva [Aluminum oxide: application, production methods, structure and acid-base properties]. Promyshlennyj kataliz v lekciyah [Industrial catalysis in lectures], 2009, no 8, рр. 7-61. (In Russ.). 3. Gavrilova N. N., Kruglaya T. I., Myachina M. A., Nazarov V. V., Skudin V. V. Strukturirovannyj nositel' na osnove y-AkO3 dlya membrannyh katalizatorov [Structured Support Based on y-AkO3 for Membrane Catalysts]. Steklo i keramika [Glass and Ceramics], 2018, no 1, рр. 29-35. (In Russ.). 4. Hiaofu Hu, Yunqi Liu, Chenguang Liu. Facile Synthesis of Ammonium Aluminum Carbonate Hydroxide Multilayered Nanofiber by Using Solid State Reaction // Advaced Materials Research, 2012, vols. 415-417, рр. 580-584. doi: 10.4028/www. scientific.net/AMR.415-417.580 5. Zaguzin A. S., Romanenko A. V., Buhtiyarova M. V. Sintez oksidov alyuminiya s kontroliruemymi teksturnymi i prochnostnymi harakteristikami [Synthesis of aluminum oxides with controlled textural and strength characteristics]. Zhurnal prikladnojhimii [Journal of Applied Chemistry], 2020, vol. 93, Iss. 8, рр. 1079-1090. (In Russ.). 6. Chukin G. D. Stroenie oksida alyuminiya i katalizatorov gidroobesserivaniya. Mekhanizmy reakcij. [The structure of aluminum oxide and hydrodesulfurization catalysts. Reaction mechanisms]. Moscow, Tipografiya Paladin, OOO “Printa”, 2010, 288 p. (In Russ.). 7. Dzis'ko V. A., Vinnikova T. S., Kefeli L. M., Ryzhak I. A. Poristaya struktura i prochnost' okisi alyuminiya [Porous structure and strength of aluminum oxide]. Kinetika ikataliz [Kinetics and catalysis], 1966, vol. VII, Iss. 5, pp. 859-864. (In Russ.). 8. Tregubenko V. Yu., Udras I. E., Drozdov V. A., Bely A. S. Vliyanie peptizacii psevdobemita organicheskimi kislotami na teksturnye harakteristiki poluchaemyh oksidov alyuminiya [Effect of Peptization of Pseudboehmite with Organic Acids on the Textural Characteristics of Obtained Aluminum Oxides]. Zhurnalprikladnoj himii [Journal of Applied Chemistry], 2011, vol. 84, no 1, pp. 10-17. (In Russ.). 9. Li Y., Peng C., Li L., Ra P. Self-assembled 3D hierarchically structured gamma alumina by hydrothermal method. J. Am. Ceram. Soc., 2014, V. 97, N 1, pp. 35-39. http://doi.org/10.1111.jace.12652 10. Dong Y., Xu Y., Zhang Y., Lian X., Yi X., Zhou Y., Fang W. Synthesis of hierarchically structured alumina support with adjustable nanocrystalline aggregation toward efficient hydrodesulfurization. Appl. Catal. A: General, 2018, vol. 559, pp. 30-39. 11. Dong Y., Yu X., Zhou Y., Lian X., Yi X., Fang W. Towards active macro-mesoporous hydrotreating catalists: Synthesis and assembly of mesoporous alumina microspheres. Catal. Sci. Technol, 2018, vol. 8, no 7, pp. 1892-1904. 12. Kuznetsova T. F., Eremenko S. I. Sintez mezoporistogo kremnezema aerogel'nogo tipa [Synthesis of mesoporous airgel-type silica]. Kolloidnyjzhurnal [Colloid journal], 2014, vol. 76, no 3, pp. 356-362. (In Russ.). 13. Patent 2375306 RF. Sposobpolucheniyagidrata oksidametalla [Method for producing metal oxide hydrate] / Matveev V. A., Zaharov V. I., Kalinnikov V. T., Majorov D. V.; publ. 10.12.2009, bull. no 34. (In Russ.). 14. Zakharov V. I., Matveev V. A., Maiorov D. V. Izuchenie vliyaniya tekhnologicheskih parametrov kislotnogo razlozheniya nefelina na fil'truemost' vydelyayushchihsya kremnezemnyh osadkov [Study of the effect of technological parameters of acid decomposition of nepheline on the filterability of precipitated silica deposits]. Zhurnal prikladnoj himii [Journal of Applied Chemistry], 1996, vol. 69, iss. 3, pp. 365-369. (In Russ.). 15. Matveev V. A. Issledovanie tverdofaznogo ammiachnogo gidroliza solej alyuminiya, titana i cirkoniya [Study of solid-phase ammonia hydrolysis of aluminum, titanium and zirconium salts]. Himicheskaya tekhnologiya [Chemical Technology], 2009, vol. 10, no 8, pp. 449-453. (In Russ.). 16. Goronovskij I. T., Nazarenko Yu. P., Nekryach E. F. Kratkijspravochnikpo himii [Quick reference guide to chemistry]. Kiev, Naukova dumka, 1987, pp. 612. (In Russ.). 17. Bobylev V. N. Fizicheskie svojstva naibolee izvestnyh himicheskih veshchestv [Physical Properties of the Most Known Chemicals]. Moscow, RHTU im. D. I. Mendeleeva, 2003, 24 p. (In Russ.). 18. Greg S., Sing K. Adsorbtsiya. Udel’nayapoverkhnost’. Poristost’ [Adsorption. The specific surface. The porosity]. Moscow, Mir, 1970, p. 306. (In Russ.). Информация об авторах К. А. Яковлев — ведущий инженер; Д. В. Майоров — кандидат технических наук, старший научный сотрудник. Information about the authors K. A. Yakovlev — lead engineer; D. V. Mayorov — Candidate of Technical Sciences, Senior Researcher. Статья поступила в редакцию 09.11.2022; одобрена после рецензирования 31.01.2023; принята к публикации 01.02.2023. The article was submitted 09.11.2022; approved after reviewing 31.01.2023; accepted for publication 01.02.2023. © Яковлев К. Я., Майоров Д. В., 2023 264
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