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The results from the experimental research are presented in the abstract. The experimental research involved utilization of the sludge from the mine water treatment plant of Coal Quarry ČSA/Czechoslovak Army/ (hereinafter “ČSA”) and Coal Quarry Jana Švermy (hereinafter “JŠ”) in the segment of thermal insulation mortars. The mine water treatment is described below including chemical and mineralogical sludge composition as the additional component of the binding material in the polyurethane thermal insulation mortars. Furthermore the composition of experimental mixtures of the thermal insulation polyurethane mortar is presented in the work and its physical-mechanical properties. The monitored elements included the strength characteristics, heat conductivity coefficient λ, and water vapour diffusion coefficient μ.
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Tom
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51--59
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Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
- Institute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
- Institute of Physics Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
autor
- PÓROBETON Ostrava Třebovická 5543/36, 722 02, Ostrava – Třebovice, Czech Republic
autor
- Institute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
autor
- Institute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
autor
- Institute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
autor
- Institute of Clean Technologies for Mining and Utilization of Raw Materials for Energy Use Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
autor
- Institute of Environmental Engineering Faculty of Mining and Geology, VŠB-Technical University of Ostrava 17. Listopadu 15, 708 33, Ostrava-Poruba, Czech Republic
Bibliografia
- [1] Agopsowicz, M., Bialowiec, A. & Pijarczyk, P. (2008). Sewage sludge land disposal effects on groundwater, Archives of Environmental Protection, 34(2), 73-82.
- [2] Lebkowska, M. & Zaleska-Radziwill, M. (2011). Usable products from sewage and solid waste, Archives of Environmental Protection, 37(3), 15-19.
- [3] Bartkiewicz, B. & Obierak, I. (2006). A technology of utilization in road construction of oil sludge resulting from the sewage treatment in the Polish oil consortium “Orlen” joint stock company (PKN Orlen S.A.) in Płock, Archives of Environmental Protection, 32(1), 113-123.
- [4] Pertile E. (2008). Suitability analysis of waste rock application in hydric reclamation in the natural water-bearing subsidence troughs in Karvinsko, Czech Republic, Rudarsko Geolosko Naftni Zbornik, 20(1), 97-100.
- [5] Václavík, V. & Daxner, J. (2010). Plnivo na bázi polyuretanové pěny do izolačních malt a lehkých betonů. Časopis stavebnictví, 09, 38-44.
- [6] Stevulova, N., Vaclavik, V., Junak, J., Grul, R. & Bacikova, M. (2008). Utilization possibilities of selected waste kinds in building materials preparing. In: SGEM 2008: Modern management of mine producing, geology and environmental protection. 193-200.
- [7] Vaclavik, V., Dirner, V., Dvosky, T. & Daxner, J. (2012). The use of blast furnacec slag, Metalurgia, 51(4), 461-464.
- [8] Katzer, J. & Kobaka, J. (2010). Harnessing Waste Fine Aggregate for Sustainable Production of Concrete Precast Elements, Annual Set The Environment Protection (Rocznik Ochrona Środowiska), 12, 33-45.
- [9] Slivka, V. et al. (2010). Demineralization process of the mine water treatment - proposal of the complex methodology, Utilization of secondary products from mining and processing of energetic raw materials, 1 st ed., Montanex a. s., Ostrava, Vol 1.
- [10] Vidlář, J. (2002). Treatment method of the mine water with excess content of sulphates, Czech Republic Patent: nr 290953 of 13.11.2002.
- [11] Heviánková, S. & Vidlář, J. (2010). Donor of aluminous ions for sulphates precipitation, Czech Republic Utility Model: CZ 21442 of 1.11.2010.
- [12] Heviankova, S., Bestova, I. & Zechner, M. (2011). Possibilities of Acid Mine Drainage Treatment in Sokolovská uhelná, Czech Republic, Gospodarka Surowcami Mineralnymi - Mineral resources management, 27(3), 113-124.
- [13] Silva A.M, Cunha E.C., Reis F., Leão, V.A. (2012). Treatment of high-manganese mine water with limestone and sodium carbonate, Journal of Cleaner Production, (29-30), 11-19, DOI: 10.1016/j.jclepro.2012.01.032.
- [14] ČSN EN 1015-11: Methods of test for mortar for masonry - Part 11: Determination of fl exural and compressive strength of hardened mortar.
- [15] Václavík, V., Daxner, J. & Dvorský, T. (2012). Thermal insulation mortar on the basis of polyurethane with calcifi c sludge after the mine water treatment. VŠB - Technical University of Ostrava. D & Daxner technology s.r.o. Functional sample: nr 058/17-10-2011_F of 17.10.2012.
Typ dokumentu
Bibliografia
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