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Journal of Achievements in Materials and Manufacturing Engineering

Tytuł artykułu

Minimization of environmental risk by optimization of the end-of-pipe processes

Autorzy Karkoszka, T. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
EN Purpose: of the paper has been an attainment of the thesis that efficient minimization of environmental risk of processes can be realised not only by usage of new technologies creating no contaminants, but also by - fulfilling cleaner production requirements - the ‘end-off-pipe’ solutions. Design/methodology/approach: used for the analysis has covered optimization of hydrocarbon degradation as the ‘end-of-pipe’ process by determination of the efficiency of hydrocarbons chemical and biological degradation and evaluation of the effect of the initial content of the hydrogen peroxide on alkanes biodegradation. Findings: of analysis are as follows: both chemical and biological oxidation is a straight forward method for decreasing hydrocarbon concentration in the production wastewater, so - the possibility of optimization of the ‘end-of-pipe’ process. Practical implications: can be applied in case of any organisation, which, because of financial or technological reasons, minimizes the concentration of hydrocarbons draining off to the environment by the ‘end-off-pipe’ technologies. Originality/value: of the presented paper has been created by confirmation that application of the best available technologies is not the only way for efficient fulfilling legal requirements of integrated pollution prevention and control directive and cleaner production strategy assumptions.
Słowa kluczowe
EN improvement of process   environmental management   Cleaner Production   environmental risk  
Wydawca International OCSCO World Press
Czasopismo Journal of Achievements in Materials and Manufacturing Engineering
Rocznik 2011
Tom Vol. 49, nr 2
Strony 499--506
Opis fizyczny Bibliogr. 24 poz., rys., tab.
autor Karkoszka, T.
  • Division of Biomaterials Engineering, Institute of Engineering Materials and Biomaterials, Silesian Technical University, ul. Konarskiego 18a, 44-100 Gliwice, Poland,
[1] T. Karkoszka, D. Szewieczek, Risk of the processes in the aspect of quality, natural environment and occupational safety, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 539-542.
[2] M. Dudek-Burlikowska, Aspects of improving the organisation directed to the quality, Journal of Achievements in Materials and Manufacturing Engineering 42 (2010) 101-108.
[3] D. Szewieczek, M. Roszak, D. Helizanowicz, Methodology of the quality management in the productive process, Journal of Achievements in Materials and Manufacturing Engineering 30 (2008) 87-94.
[4] J. Michalska, D. Szewieczek, The improvement of the quality management by the activity based costing, Journal of Achievements in Materials and Manufacturing Engineering 21 (2007) 91-94.
[5] M. Kramer, J. Brauweiler, Z. Nowak, International environmental management, C.H.Beck Publishing House, Warsaw, 2005.
[6] T. Karkoszka, G. Liepelt, G. Kayser, W. Kramer, Investigations into the chemical-biological elimination of synthetic lubricants from spinning mill wastewater, Wasserwirtschaft, Abwasser, Abfall 49 (2002) 1242-1248.
[7] E. Moors, K.F. Mulder, P.J. Vergragt, Towards cleaner production: barriers and strategies in the base metals producing industry, Journal of Cleaner Production, 13 (2005) 657-668.
[8] A. Kania, M. Spilka, Strategies of sustainable development in practice, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 413-416.
[9] Council Directive 96/61/EC of 24 September 1996 concerning integrated pollution prevention and control (Official Journal L 257, 10/10/1996).
[10] Council Directive 2008/1/EC of the European Parliament and of the Council of 15 January 2008 concerning integrated pollution prevention and control (text with EEA relevance), Official Journal L 24, 29/1/2008).
[11] Act of 27 April 2001 on Natural environment protection, Journal of Laws of 2004 62 (2004) 627.
[12] Guidelines for preparation of the integrated permission application, Environmental Ministry Publishing House, Warsaw 2003.
[13] R.T. Morrison, R.N. Boyd, Organic chemistry, PWN Publishing House, Warsaw, 1985.
[14] J.D. Roberts, M.C. Caserio, Organic chemistry, PWN Publishing House, Warsaw, 1969.
[15] H.J. Rehm, G. Reed, Biotechnology Vol. 8. Microbial Degradations, Verlag Chemie, Weinheim, 1986.
[16] H. Bruckner, C. Eppelsheim, H. Hartung, P. Neukirchinger, F. Sadri, C. Stader, T. Weyh, Goldmann Lexikon. Chemie. Grundlagen, Chemische Elemente, Organische Chemie, Grundstoffe und Verfahren, Chemie und Umwelt, Wilhelm Goldmann verlag, München, 1999.
[17] Ch. Meyer, ,Allgemaine und Anorganische Chemie. Band II’, 1995.
[18] T. Oppenlander, Photochemical purification of water and air. Advanced oxidation proceses (AOPs): principles, reactions mechanisms, reactor concepts, Wiley-Vch Publishing House, Weinheim, 2003.
[19] M.B. Ray, J.P. Chen, L.K. Wang, S.O. Pehkonen, Advanced oxidation processes in Advanced physicochemical treatment processes. Handbook of environmental engineering, Humana Press, New Jersey, 2006.
[20] R.M. Atlas, Bioremediation of Petroleum Pollutants, International Biodeterioration and Biodegradation, 1995,. 317-327.
[21] Water Treatment Handbook, Degremont, Halsted Press, 1979.
[22] M. Bühler, J. Schindler, Biotechnology 6a. Biotransformations, Verlag Chemie, Weinheim, 1984.
[23] R. Boopathy, Factors limiting bioremediation technologies, Bioresource Technology, vol. 74, 2000.
[24] M. Henze, P. Harremoes, J. Jansen, E. Arvin, Wastewater Treatment. Biological and Chemical Processes, Springer -Verlag, Berlin, 2002
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