Volume 7, Issue 2, June 2018, Page: 19-22
Thermodynamic Studies of High-Temperature Processes in the System "Loesslike Loam - Coal - Alkaline"
Babaev Zabibulla Komilovich, Department of Chemical Technology, Chemical -Technological Faculty, Urgench State University, Urgench City, Uzbekistan
Ermetov Amirbek Ismailovich, Department of Chemical Technology, Chemical -Technological Faculty, Urgench State University, Urgench City, Uzbekistan
Received: Jun. 21, 2018;       Accepted: Jul. 7, 2018;       Published: Jul. 27, 2018
DOI: 10.11648/j.ajpc.20180702.12      View  557      Downloads  46
In recent years, studies of a number of foreign scientists have been reported on the possibility of using loess loam as the main constituent of the ceramic composition in the production of clinker brick. Loess loam is considered a common raw material. In this paper, we consider the purpose, which is research on the study and development of methods that regulate the physicochemical processes occurring in the mass of loess-like loam under the influence of temperature. As a result of these studies it will be possible to intensify thermochemical processes and achieve high-quality products with minimal energy costs. Thus, the possible chemical interactions between minerals of loess-like loam have been theoretically studied, the medium of which is given priority to the decomposition of kaolinite. To intensify the decomposition process of refractory minerals, it is recommended to use an alkali additive in an amount of up to 5%, with a weight ratio of coal.
Chemical Processes, Loess-Like Loam, Thermochemical Processes, Alkali Oxides, Chemical Reactions, Coke-Alkaline Additive, Carbon, Sodium Hydroxide
To cite this article
Babaev Zabibulla Komilovich, Ermetov Amirbek Ismailovich, Thermodynamic Studies of High-Temperature Processes in the System "Loesslike Loam - Coal - Alkaline", American Journal of Physical Chemistry. Vol. 7, No. 2, 2018, pp. 19-22. doi: 10.11648/j.ajpc.20180702.12
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Budanov V. V. Chemical thermodynamics SPb-M-Krasnodar: Lan. 2016.-318s.
Efimov K. A. Electrosurface and rheological properties of clay materials with complex additives: dis candidate of technical sciences 02. 00. 11. Belgorod, 2007. 148.
Chemical products from coal / S. N. Baranov, V. I. Saranchuk, V. A. Sapunov and others. Kiev: Nauk. dumka, 1983. 116s.
Goncharov Y. I., Doroganov EA, Zhidov K. V. Mineralogy and features of rheology of clays of kaolinite-illite composition // Glass and ceramics. 2003. № 1. Pp. 19-23.
Chistyakov B. E., Bedenko V. G., Nichikova T. N. Additives of carbon alkaline reagent and rheological properties of raw sludge // Cement. 1989. № 11. Pp. 17-18.
Panova O. A., Ivleva I. A., Besedin P. V. Investigation of the structural-rheological properties of the composition in the presence of an alkali-reagent // Cement and its application. 2012. №5. Pp. 94-98.
P. V., Panova O. A., Ivleva I. A. Techniques, patterns and mechanisms of energy conservation on the base of using of plasticizing agents in the technology of making of the cement clinker // Word Applied Sciences Journal. 25 (1): 83-91. 2013.
Babushkin V. I., Matveyev G. M., Mchedlov-Petrosyan O. P. Thermodynamics of silicates 4 th ed., Pererab. and additional. Moscow: Stroiizdat, 1986. 408 p.
Eitel V. Physical chemistry of silicates. Moscow: Publishing House of Foreign Literature, 1962. 1056 p.
Prigogine I., Defay R. Chemical Thermodynamics. Novosibirsk: Science, Siberian Division, 1966. 512 p.
[Eleven]. Guzman I. Y. Chemical technology of ceramics. Textbook. manual for universities. M.: OOO RIF "Stroimaterialy", 2003. 496 p.
Besedin P. V., Ivleva I. A., Mospan V. I. Heat-efficient wall material // Glass and ceramics. 2005. № 6. P. 24-25.
Dulkina, T. I. Gzhel. Ceramics of 18-19 centuries. Ceramics of the 20th century / T. I. Dulkina, N. S. Grigor'eva, TL. Astrakhantsev. - Moscow: Planet; Edition 2-e, corrected and add., 2016. - 184 c.
Sidorova, N. A. Antique painted ceramics / N. A. Sidorova, O. V. Tugusheva, V. S. Zabelina. - Moscow: Art, 2016. - 228 c.
Arzumanova, OI Keramika Abramtseva in the meeting of the Moscow State University of Engineering Ecology / O. I. Arzumanova, V. A. Lyubartovich, M. V. Nashchokina. - Moscow: Giraffe, 2015. - 224 c.
Salakhov AM, Morozov VP, Gumarov AI, Ariskina K. A., Valimukhametova AR, Lis ON, Pasynkov M. V. Experience of surface treatment of ceramic materials for construction purposes / / Building materials. 2017. № 4. P. 42-46.
Saenko EG, Korepanova VF, Grinfeld GI. Opportunities of clinker clinker brick of LSR brand in import substitution // Building materials. 2016. № 4. P. 60-63.
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