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Negative Environmental Impacts of Production Technologies

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The current market environment is affected by several fundamental changes. A large number of these affect manufacturing companies the most. They are forced to continuously reduce their costs, improve the quality of service to their customers and adapt to a highly competitive environment. However, environmental requirements for production processes have become increasingly important in recent years. These are underpinned by legislative changes that put enormous pressure on manufacturers. Often, environmental requirements can also determine the economic success of a manufacturer. The areas that have a significant environmental impact include metallurgical technologies. These are currently predominantly based on the use of coke, which is produced from high-quality hard coal. The mining of raw materials also has significant environmental impacts. The article deals with analysing downstream production processes regarding their environmental impact. These are the areas of mining, ore processing and iron and steel production. These areas can be seen as downstream production stages. Iron ore processing and iron and steel production often occur within a single production organisation. Therefore, a possible overall optimisation in handling environmental impacts and treating pollutants can be assumed. The secondary objective of the paper is to analytically assess the potential reuse of the produced waste in production processes. The article is based on the research results carried out in a selected metallurgical enterprise in the Czech Republic.
Słowa kluczowe
Rocznik
Tom
Strony
307--325
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
autor
  • Department of Industrial Systems Management, Faculty of Materials Science and Technology, VŠB – Technical University of Ostrava, Czech Republic
  • Department of Industrial Systems Management, Faculty of Materials Science and Technology, VŠB – Technical University of Ostrava, Czech Republic
  • Department of Industrial Systems Management, Faculty of Materials Science and Technology, VŠB – Technical University of Ostrava, Czech Republic
  • Department of Industrial Systems Management, Faculty of Materials Science and Technology, VŠB – Technical University of Ostrava, Czech Republic
  • Department of Industrial Systems Management, Faculty of Materials Science and Technology, VŠB – Technical University of Ostrava, Czech Republic
Bibliografia
  • Aoki-Suzuki, C., Dente, SMR., Tanaka, D., Kayo, C., Murakami, S., Fujii, C., Tanaka, K., Hashimoto, S. (2021). Total environmental impacts of Japanese material production. Journal of industrial ecology, 25(6), 1474-1485. DOI: 10.1111/jiec.13152
  • Brož, L. (1998). Hutnictví železa. SNTL, 1998. (Original in Czech).
  • Besta, P., Wicher, P. (2017). The optimisation of the production of sinter as the feedstock of the blast furnace process. Metalurgija, 56(1), 131-134.
  • Chamier-Gliszczynski, N., Krzyzynski, T. (2005). On modelling three-stage system of receipt and automotive recycling. REWAS’04, Global Symposium on Recycling, Waste Treatment and Clean Technology 2005, 2813-2814, Madrid, Spain, 26-29 September 2004, Conference Paper, ISBN: 8495520060.
  • Chamier-Gliszczyński, N. (2010). Optimal Design for the Environment of the Means Transportation: A Case Study of Reuse and Recycling Materials. Sold State Phenomena, 165, 244-249. DOI: 10.4028/www.scientific.net/SSP.165.244
  • Chamier-Gliszczyński, N. (2011). Recycling Aspect of End-of Life Vehicles. Recovery of Components and Materials from ELVs. Key Engineering Materials, 450, 421-424. DOI: 10.4028/www.scientific.net/KEM.450.421
  • Chamier-Gliszczyński, N. (2011a). Reuse, Recovery and Recycling System of End-of Life Vehicles. Key Engineering Materials, 450, 425-428. DOI: 10.4028/www.scientific. net/KEM.450.425
  • Chamier-Gliszczyński, N. (2011b). Environmental aspects of maintenance of transport means, end-of life stage of transport means. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 50(2), 59-71. http://ein.org.pl/podstrony/wydania/50/pdf/07.pdf
  • Fahimnia, B., Bell, G.H., Hensher, D.A., Sarkis, J. (2015). Green Logistics and Transportation: A Sustainable Supply Chain Perspective. Springer, 2015.
  • Frolichova, M., Ivanisin, D., Maslejova, A., Findorak, R., Legemza, J. (2015). Iron-ore sintering process optimisation. Archives of metallurgy and materials, 60(4), 2895-2899. DOI: 10.1515/amm-2015-0462
  • Gabryelewicz, I., Lenort, R., Wędrychowicz, M., Krupa, P., Woźniak, W. (2021), Environmental Loads Resulting from Manufacturing Technology, Rocznik Ochrona Środowiska, 23, 613-628, ISSN: 1506-218X, DOI: 10.54740/ros.2021.043
  • Ji, YQ., Liu, CY., Yu, HC., Deng, XX., Huang, FX., Wang, XH. (2020). Oxygen transfer phenomenon slag molten steel for production of IF steel. Journal of iron and steel research international, 27(4), 402-408. DOI: 10.1007/s4243-019-00285-z
  • Kitula, AGN. (2006). The environmental and socio-economic impacts of mining on local livelihoods in Tanzania: A case study of Geita District. Journal of cleaner production, 14(3-4), 405-414. DOI: 10.1016/j.clepro.2004.01.012
  • Kolala, C., Polyakov, M., Fogarty, J. (2020). Impacts of mining on property values in Kalgoorlie Boulder, Western Australia. Resources policy, 68. DOI: 10.1016/j.resour-pol.2020.101777
  • Kret, J. (2013). Teorie procesů při výrobě železa a oceli, VŠB – Technical University of Ostrava. (Original in Czech).
  • Kollmann, T., Jandl, C. (2013). Basic oxygen furnace benchmarking – maintenance and process considerations. Stahl und Eisen, 133(12), 37-47.
  • Lapčík, V. (2008). Výrobní a environmentální technologie. Ostrava: VŠB – Technical University of Ostrava. (in Czech).
  • Lapčík, V., Lapčíková, M. (2010). Posuzování vlivu povrchové důlní činnosti na životní prostředí. Životní prostředí, 44(1), 10-14. (in Czech).
  • Lenort, R., Baran, J., Wysokiński, M., Gołasa, P., Bieńkowska-Gołasa, W., Golonko, M., Chamier-Gliszczyński, N. (2019). Economic and environmental efficiency of the chemical industry in Europe in 2010-2016. Rocznik Ochrona Srodowiska, 21(2), 1398-1404.
  • Lu, L. (2017). Important iron ore characteristics and their impacts on sinter quality – a review. Mining, Metallurgy & Exploration, 32(1), 88-96.
  • Marczewska, M., Jaskanis, A., Kostrzewski, M. (2020). Knowledge, Competences and Competitive Advantage of the Green-Technology Companies in Poland. Sustainability, 12, 8826. DOI: 10.3390/su12218826.
  • Mojarradi, G., Razaei, R., Ketabi, A. (2016). Negative impacts of mine exploitations on rural of Tekab Township. Journal of mining and Environment, 7(1), 57-66.
  • Park, J., Kim, E., Suh, IK., Lee, J. (2022). A short review of effect of iron ore selection on mineral phases of iron ore sinter. Minerals, 12(1). DOI: 10.3390/min12010035
  • Raclavský, K. (2001). Historický vývoj území – zpracování dílčích podkladů pro hodnocení dynamiky vlivů těžby na reliéf území. Ostrava: VŠB – Technical University of Ostrava. (in Czech).
  • Shamsuddin, M. (2016). Physical Chemistry of Metallurgical Processes. New York: John Wiley & Sons.
  • Szajna, A., Stryjski, R., Woźniak, W., Chamier-Gliszczyński, N., Kostrzewski, M. (2020). Assessment of Augmented Reality in Manual Wiring Production Process with Use of Mobile AR Glasses. Sensors, 20(17), 4755. DOI: 10.3390/s20174755.
  • Vanhatalo, E. (2010). Multivariate process monitoring of an experimental blast furnace. Quality and reliability engineering international, 26(5), 495-508. DOI: 10.1002/ qre.1070.
  • Zwolińska, B., Tubis, A.A., Chamier-Gliszczyński, N., Kostrzewski, M. (2020). Personalization of the MES System to the Needs of Highly Variable Production. Sensors, 20, 6484. DOI: 10.3390/s20226484.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1c0dd6d4-4eef-40d8-963c-588f7a928e0d
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