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Warianty tytułu
Konferencja
7th International Conference System Safety: Human - Technical Facility - Environment, CzOTO 2018 (7 ; 12-14.12.2018 ; Zakopane, Poland)
Języki publikacji
Abstrakty
Possibilities of use of degassing and carbon gas in industry. Degassing gas represents a waste during coal mining so far and this issue is not effectively solved in Ostrava region up till now Ecological aspects, safety, economic aspects. Coal deposits represent a special case in which the deposit is both a source of coal and reservoir of gas. For the thing is that, in the process of coalification of plant residue, coal bed gas came into being of which the main component is methane. Gas from mining degassing can be used as a substitute fuel for the blowing of blast furnaces. This would not only make it possible to reduce the specific consumption of coke, but also contribute to a better blast furnace. An economic effect is also negligible if we characterize degassing gas as waste gas.
Wydawca
Rocznik
Tom
Strony
378--383
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- VŠB – Technical University of Ostrava
autor
- VŠB – Technical University of Ostrava
autor
- VŠB – Technical University of Ostrava 2 Politechnika Czestochowska, Poland
autor
- Politechnika Czestochowska, Poland
Bibliografia
- [1] Babich, A. I., Gudenau, H.W. 2002. Choice of technological regimes of a blast furnace operation with injection of hot reducing gases. Rev. Metal.,38, 288-305.
- [2] Baricova, D., Pribulova, A., Rosova, A. 2013. Steelmaking Slag - Waste or Valuable Secondary Raw Material. Geoconference on Energy and Clean Technologies, Sofia, 437-442.
- [3] Bernasowski, M., 2014. Theoretical Study of the Hydrogen Influence on Iron Oxides Reduction at the Blast Furnace Process. Steel Research International, 85, 670-678.
- [4] Bilík, J., Roubíček, V., Vilamová, S., Pustějovská, P. 2002. Actual Possibilities of Coal Utilization in Iron Metalurgy. Metalurgija, 42, 107-111.
- [5] Frőhling, C., Babich, A., Gudenau, H. W., Senk, D. 2003. Aktuelle untersuchungen zum Einblasen in den Hochofen. 18. Aachener Stahlkolloquium. Aachen, 2, 43-56.
- [6] Gajdzik,B., Burchard-Korol, D. 2011. Eco-innovation in manufacturing plants illustrated with an example of Steel products development. Metalurgija, 50, 63-66.
- [7] Jonšta P., Váňová P., Brožová S., Pustějovská P., Sojka J., Jonšta Z., Ingaldi M. Hydrogen embrittlement of welded joint made of supermartensitic stainless steel in environment containing sulfane. Archives of Metallurgy and Materials, 2016, vo. 61, Nr 2A, s. 709-712.
- [8] Jursova, S., Pustejovska, P., Bilik, J., Honus, S. 2017. Evaluation of Reducibility of High and Low Basic Sinter in Economical Point of View. 26th International Conference on Metallurgy and Materials, Ostrava, Tanger, 2176-2181.
- [9] Jursova, S., Pustejovska, P., Brožová, S. Bilik, J. 2016. Mathematical simulation of blast furnace operation. Ironmaking and Steelmaking Processes: Greenhouse Emissions, Control, and Reduction, 139-150.
- [10] Konstanciak, A., Brozova, S., Pustějovská, P. 2013. The use of alternative energy source in Poland and Europe. Rynek energii, 107, 33-36.
- [11] Legemza, J., Frőhlichova, M., Findorak, R., Bakaj, F. 2010. Emissions CO and CO2 in the Sintering Process. 10th International Multidisciplinary Scientific Geoconference, Albena, 567–572.
- [12] Nogami, H., Kashiwaya, Y., Yamada, D. 2012. Simulation of Blast Furnace Operation with Intensive Hydrogen Injection. ISIJ International, 52, 1523–1527.
- [13] Pustějovská, P., Brožová, S. and Jursová, S. 2013 Blast furnaces intensification by gases and oxygen. Wybrane zagadnienia energo-fizyczne w produkcji stali, 36, Czestochowa, 22-35.
- [14] Roubíček, V., Pustějovská, P., Bilík, J., Janík, I. 2007. Decreasing CO2 Emissions in Metallurgy. Metalurgija, 46, 53–59.
- [15] Urban, P. 2010. Utilization of gas from closed underground coal mines. GeoScience Engineering, 2, 27-35.
- [16] Václavík, V., T. Dvorský, V. Šimíček, M. Ondová, J. Valíček, M. Kušnerová, Gola, L. 2016. Steel Slag as a Substitute for Natural Aggregate in the Production of Concrete. Solid State Phenomena, 244, 77-87.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-000864ee-b961-4ebe-957c-e92644764bf1