Volume 2, Issue 3, September 2018, Page: 76-80
Database of Materials for the Evaluation of the Impact of Harmful Substances in Metallurgical Processes
Szymon Biernat, Institute of Science and Technology, State Higher Vocational School, Glogow, Poland
Adam Bydałek, Faculty of Non-Ferrous Metals, AGH University of Science and Technology, Cracow, Poland
Received: Oct. 31, 2018;       Accepted: Nov. 19, 2018;       Published: Dec. 17, 2018
DOI: 10.11648/j.ijem.20180203.14      View  149      Downloads  16
Abstract
The study contains a description of the use of IT material base in foundry, refining and metallurgy processes. The program is an extension of applications for the assessment of physicochemical and refining properties of metallurgical slags and process base related to the production of brass. However, the functionality of this part is related to the assessment of the harmfulness of the use of specific substances in both laboratory and industrial processes. Thanks to the simple search interface, the user can get quick information about the dangers that can be carried by substances used by him. In addition, you can also check what protection measures should be used when working with the substances in question. The program also draws attention to the utilization of waste materials after production and research processes.
Keywords
Management, Environmental Protection, Toxicity of the Substance, Program, Counteraction, Protection
To cite this article
Szymon Biernat, Adam Bydałek, Database of Materials for the Evaluation of the Impact of Harmful Substances in Metallurgical Processes, International Journal of Engineering Management. Vol. 2, No. 3, 2018, pp. 76-80. doi: 10.11648/j.ijem.20180203.14
Copyright
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Jurkiewicz, A. &Bujak, F. (2015). Health threats related to genetically modified food (GMF) (in Polish). Medycyna ogólna i nauki o zdrowiu. 21 (1), 62 – 64. DOI: 10.5604/20834543.1142361
[2]
Stankiewicz D. Genetically modified organisms (in Polish). Kancelaria Sejmu, Biuro Studiów i Ekspertyz. Wydział Analiz Ekonomicznych I Społecznych, Warszawa, 2000: 750.
[3]
Wasilewska, E. & Małgorzewicz, S. (2015). Unwanted food reactions to food additives (in Polish). Forum zaburzeń metabolicznych. 6 (1), 8 – 13.
[4]
Uberman, R., Pietrzyk – Sokulska, E. & Kulczycka, J. (2014). Assessment of the impact of mining activities on the environment - trends of changes (in Polish). Przyszłość: Świat – Europa – Polska. 2 (30), 87 – 119.
[5]
Dudlewski, J., Wtorek, L. (2000). Threat to the environment arising from the underground exploitation of mineral resources.(in Polish). Eksploatacja podziemna a ochrona środowiska w świetle prawa Unii Europejskiej, Ustroń Śl., 29 – 31 maja 2000 (25 – 35). Kraków: Polska Akademia Nauk Instytut Gospodarki Surowcami Mineralnymi i Energią.
[6]
Oleksiak, B & Łabaj, J. (2009). Prace Instytutu Metalurgii Żelaza. Emissions of dioxins and furans in the iron and steel metallurgy industry (in Polish). 5 (2009), 35 – 37.
[7]
Kargulewicz, I. & Olendrzyński, K. (2002). Archives of Foundry. Emission of persistent organic emissions to the atmosphere (in Polish). 2 (3), 57 – 62.
[8]
Słupek, S. & Buczek, A. (2002). Hutnik. Atmospheric pollution in the production process of metallurgical refractories (in Polish). 69 (11), 433 – 437.
[9]
Razowska – Jaworek, L. (2003, January). The impact of liquidation of mining on the aquatic environment (in Polish). Retrieved December 09, 2017 from https://www.pgi.gov.pl/drogi/aktualnosci/127-kopalnia-wiedzy-nowe/wody-podziemne.
[10]
Kotarska, I. (2012). Mining wastes from copper mining in Poland - balance, development status and environmental aspects (in Polish). Cuprum. 4 (65), 45 – 63.
[11]
Szpadt, R. (2010). Forecast of changes in the field of waste management (in Polish). Opracowanie na zamówienie Ministerstwa Środowiska, Kamieniec Wrocławski.
[12]
S. Biernat & A.W. Bydałek & P. Schlafka (2011). The property estimation of copper alloys refining slag with the stimulators addition use the database. Archives of Foundry Engineering. 11 (2), 9 – 12.
[13]
S. Biernat& A.W. Bydałek (2014).The application of Numerical Methods to evaluate the viscosity of the coating using the model extraction Iida.Archives of Foundry Engineering. 14 (3), 85 – 89.
[14]
S. Biernat& A.W. Bydałek& W. Wołczyński& M. Holtzer (2017).Method and Apparatus for Assessing the Properties of Slags.Archives of Foundry Engineering. 17 (3), 13 – 18.
[15]
S. Biernat& A.W. Bydałek& W. Wołczyński& K. Najman (2017).Archives of Metallurgy and Materials.Analysis of the possibility of calculating the charges on the example of brasses. 62 (2017), 4, 2165 – 2170.
[16]
Biernat, S. &Bydałek, A.W. (2014). Optimization of the Brass Melting.Archives of Foundry Engineering. 14 (3), 5 – 10.
[17]
Bydałek, A.W., Najman, K., Kula, A., Biernat, S., Błaż, L. &Wołczyński, W. (2016). Evaluation of Precipitates Type in Brasses as a Function of Charge Material.Archives of Foundry Engineering. 16 (3), 19 – 24.
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