Identyfikatory
Warianty tytułu
Materiały termoizolacyjne o strukturze porowatej
Języki publikacji
Abstrakty
The raw mix of silica-containing technogenic component – fly ash of thermal power plants - and the methods of preparing waterproof porous thermal insulating materials of extended application on its base according to the powder low-temperature technology has been developed using multifunctional properties of soluble glass as: a) a binding component; b) blowing agent; c) the raw mix hardening rate regulator. The physical and chemical, technological aspects of obtaining and using the suggested alkaline-silicate compositions have been considered.
W artykule przedstawiono zagadnienie produkcji wodoodpornych materiałów termoizolacyjnych przy wykorzystaniu mieszanek zawierających krzem i popiół lotny, pochodzący z elektrowni w oparciu o niskotemperaturową technologię proszkową. Opiera się ona o wykorzystanie szerokich właściwości szkła wodnego, tj. jako: a) element łączący, b) element spulchniający, c) regulator twardnienia. W pracy rozpatrzono fizyczno-chemiczne i technologiczne aspekty wytworzenia i wykorzystania tego typu kompozytów.
Czasopismo
Rocznik
Tom
Strony
258--265
Opis fizyczny
Bibliogr. 22 poz., fot., rys., tab., wykr.
Twórcy
autor
- Kielce University of Technology
autor
- Ivano-Frankivsk National Technical University of Oil and Gas, Ukraine
Bibliografia
- [1] Pavlenko, A., Koshlak, H. Production of porous material with projected thermophysical characteristics/ Metallurgical and Mining Industry, 2015.-No.1ю, р. 123-127.
- [2] Malyavsky N. I. Shchelochno-silikatnyie utepliteli. Svoistva I khimicheskiye osnovy proizvodstva [Alkaline silicate heat insulants. Properties and chemical bases of production] / N. I. Maliavsky // Rossiyskiy khimicheskiy zhurnal - Russian Chemical Journal (Zh. Ros. khim. ob-va im. D. I. Mendeleeva - Journ. of D. I. Mendeleev Russian Chemical Society)]. - 2003. - V. XLVII. - No. 4, p. 39-45.
- [3] Leonovich S. N. Osobennosti polucheniya Shchelochno-silikatnykh teploizoliatsionnykh materialov [Features of obtaining alkaline-silicate heat-insulating materials] / S. N. Leonovich, G. L. Shchukin, A. L. Belanovich et al. // Nauka i tekhnika [Science and Technology]. - 2012. - No. 6, p. 45-50 (in Byelorussia).
- [4] Figovskiy O. L. Zhydkoye steklo i vodnyie rastvory silikatov kak perspektivnaya osnova tekhnologicheskikh protsessov polucheniya novykh nanokompozitsionnykh materialov [Soluble glass and aqueous solutions of silicates as a promising basis for the technological processes of obtaining new nanocomposite materials] / O. L. Figovskiy, P. G. Kudryavtsev // Elektronnyi nauchnyi zhurnal: Inzhenernyi vestnik Dona. [Electronic scientific journal: Engineering bulletin of Don.] - 2014. - V. 29. - No. 2. - Doc. 2448, p. 55-97.
- [5] Fei Shi, Lijiu Wang, Jingxiao Liu, Miao Zeng. Effect of heat treatment on silica aerogels prepared via ambient drying // J. Mater. Sci. Technol. - 2007. - Vol. 23. - No. 3, p. 402-406 (in Chinese).
- [6] Pavlenko, A.,Koshlak, H. Design of processes of thermal bloating of silicates Metallurgical and Mining Industry, 2015.-No. 1, р. 118-122.
- [7] A. M. Pavlenko, H. V. Koshlak, J. Z Piotrowski. Determination of heat transfer coefficient in the phase-change heat storage device/ Structure and Environment, 2016.-No. 4, p. 278-281.
- [8] H. V. Koshlak, A Pavlenko, J. Z Piotrowski. The energy parameters of formation of the porous structure/Structure and Environment 8 (3), p. 206-210.
- [9] А. Pavlenko. Dimensions of the nucleus agent pore former closed spherical pores/ А. Pavlenko, H. Koshlak // Аktuаlne zаgаdniеniа еnеrgеtyki, budownictwa i inźynierii środowiska.- Koszalin 2016. - рp. 75-83.
- [10] Patent of the Russian Federation No. 2161142, IPC (International Patent Classification) С04В 28/24. Sposob polucheniya teploizoliatsionno-konstruktsionnogo materiala na osnove vspuchennogo vermikulita [Method of obtaining heat-insulating construction material based on expanded vermiculite]. A. V. Pariy, N.S. Nikonova, E.A. Bazhanov - Claimed on June 6, 2000 - Published on 27.12.2000.
- [11] Patent of the Russian Federation No. 2097362, IPC С04В 38/00. Syryevaya smes dlia polucheniya penosilikatnogo teploizoliatsionnogo materiala [Raw mix for obtaining foam-silicate insulation material.] N. F. Artemenko, V. I. Golubev, S. D. Bondar, R. F. Valeyev, S. V. Malofeyev, V. N. Shevelev, M. M. Mubarakshin, G. K. Mardamshin - Claimed on May 17, 1995 - Published on November 27, 1997.
- [12] Patent of the Russian Federation No. 2220927, IPC С04 В 28/26. Syryevaya smes i sposob polucheniya granulirovannogo teploizoliatsionnogo materiala [Raw material mix and method of obtaining a granulated heat-insulating material.] T. N. Radina, M. Yu. Ivanov - Claimed on April 19, 2002 - Published on 01.10.2004.
- [13] Patent of the Russian Federation No. 2220928, IPC С04В 28/26. Syryevaya smes i sposob polucheniya granulirovannogo teploizoliatsionnogo materiala [Raw material mix and method of obtaining a granulated heat-insulating material.] T. N. Radina, M. Yu. Ivanov - Claimed on April 29, 2002 - Published on 01.10.2004.
- [14] Patent of the Russian Federation No. 2246463, IPC C04B 28/26. Syryevaya smes i sposob polucheniya zernistogo teploizoliatsionnogo materiala [Raw material mix and method of obtaining a grain heat-insulating material] / T. N. Radina, A. I. Kudyakov, M. Yu. Ivanov - Claimed on 22.10.2003. - Published on 20.02.2005.
- [15] Patent of the Russian Federation No. 2134668, IPC С04В 28/26. Sposob izgotovleniya poristykh silikatnykh materialov [Method for manufacturing porous silicate materials.] S. I. Brykov, V. M. Busygin, R. G. Valeyev, L. G. Reisin, K. S. Galimov, F. A. Zakirov, V. I. Korneyev, N. A. Mochalov, I. H. Mukhametov, Yu. A. Poddubnyi, T. D. Tikhonova, A. A. Fedurin - Claimed on May 29, 1998 - Published on 08.20.1999.
- [16] Patent of the Russian Federation No. 2268248 (13), IPC C04B 38/00. Vspenennyi material i sposob yego izgotovleniya [Foam material and the method of its manufacture.] V. A. Lotov, K. A. Rudik - Claimed on July 06, 2004 - Published on January 20, 2006.
- [17] Koshlak H. V. Use of burshtyn tpp ash for the production of expanded gas concrete/ Energy, energy saving and rational nature use. - No. 2 (5) 2016, р. 87-95.
- [18] Koshlak H. Heat exchange in a confined space / H. Koshlak // Problem of energy saving and nature use 2013. - Budapest, 2014, p. 87-92.
- [19] Ovcharenko G. I., Tseolity v stroitelnykh materialakh [Zeolites in Building Materials] / G. I. Ovcharenko, V. L. Sviridov, L. K. Kazantseva. - Barnaul: AltGTU, 2000, p. 320.
- [20] Maliavsky N. I., Zvereva V. V. Kaltsiy-silikatnyie otverditeli zhidkogo stekla dlia polucheniya vodostoykikh shchelochno-silikatnykh utepliteley [Calcium-silicate liquid glass hardeners for obtaining water-resistant alkaline-silicate insulants] ISSN 1994-0351. Internet-vestnik [Internet-bulletin] of the VolgGASU. 2015. Issue 2(38). www.vestnik.vgasu.ru
- [21] Koshlak H. Temperature state plate in conditions convective heat transfer / A. Pavlenko , H. Koshlak // Collection of scientific articles «Energy, energy saving and rational nature use». - Radom: Kazimierz Pułaski University of technology and Humanities in Radom.- No 1 (4) 2015, p. 108-114.
- [22] Koshlak A. Solution of equations thermal conductivity / A. Koshlak // Collection of scientific articles «Energy, energy saving and rational nature use».- Radom: Kazimierz Puɬaski University of technology and Humanities in Radom.- No. 2 (3).- 2014, p. 38-49.
Uwagi
EN
1. The work was financed by Kielce University of Technology, part of the statutory work No. 05.0.08.00/2.01.01.01.0019 MNSP.IKFB.14.002
PL
3. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-77b6b014-a12d-4afd-9f4e-d3f9a67881f2