Economic Analysis of Selected Filter Beds Used for Water Treatment
Iwona Skoczko
https://orcid.org/0000-0002-7397-4231
Ewa Szatyłowicz
https://orcid.org/0000-0001-6659-4452
Łukasz Malinowski
Abstrakt
The aim of the present study was to assess the possibility of use economic analysis to compare selected filter beds used in water treatment plant. There were considered selected masses which are commonly used for removal iron and manganese from the groundwater. Water purification with these minerals is one of the most important processes in water technology. Underground water taken by wells is polluted with increased concentration of iron and manganese. That is why many of individual, urban and also industrial water treatment plants do their best to remove them from the water. Thousands of tons of different filter masses set for iron and manganese purification from the water are bought on the Polish market every year. Tests carried out within experiments are presented in this paper, which include analysis of filter beds such as: Filtersorb FMH, Filter AG, Pyrolox and Defeman. Selected masses differ with origin, density, mesh size, diameter and price. For the complete economic analysis of the selected filters there considered the following factors affected the operating costs: cost of filter beds, environmental fees for water intake, costs of equipment to aerate the water, cost of chemical reagents for the regeneration of beds, cost of a dosing pump, costs of reagents for filter regeneration. The analysis showed that the cost of exploitation of the filter depends mainly on the purchase and filtration rate. In addition, significant parts in the costs of exploitation of the filter is environmental fee for water intake, but lower than buying filtration bed. The cheapest in the exploitation turned out to be Defeman and Filter-AG, the most expensive - Filter-FMH.
Klíčová slova:
filter beds, economic analysis, water treatment, operating costs, filter bedReference
Akbar-Khanzadeh, F.; Brillhart, R.L. (2001). Respirable Crystalline Silica Dust Exposure During Concrete Finishing (Grinding) Using Hand-held Grinders in the Construction Industry: 341-346. Toledo: Medical College of Ohio, Department of Public Health.
Google Scholar
Anielak, A.M.; Nowak, R. (2002). Influence of filtration bed structure on microorganisms development in the process of manganese and iron removal from water. Environment Protection Engineering 28(3): 27-40.
Google Scholar
Brebbia, C.A. (2012). Water pollution XI. Wessex: Wessex Institute of Technology.
Google Scholar
Cicszwili, G.W. (1990). Natural zeolites. Warsaw: Scientific-Technical Publishing [in Polish].
Google Scholar
Granops, M. (2005). Highly efficient methods of removing iron and manganese from water in water supply stations in non-urbanized areas. Scientific Review of Engineering and Environmental Engineering XIV(2): 153–160 [in Polish].
Google Scholar
Jeż-Walkowiak, J.; Dymaczewski, Z.; Sozański, M.M. (2011). Technological parameters of the process of filtration of hastened underground waters by oxidative beds. Journal of Environmental Engineering 26: 112-121 [in Polish].
Google Scholar
Kaleta, J.; Papciak, D.; Puszkarewicz, A. (2009). Natural and modified minerals in the treatment of groundwater, Mineral Resources Management 25(1): 51-63 [in Polish].
Google Scholar
Kowal, A.L, Świderska-Bróż, M. (2009). Water Treatment. Warszawa: PWN [in Polish].
Google Scholar
Lumiste, L.; Munter, R.; Sutt, J.; Kivimäe, T.; Eensalu, T. (2012). Removal of radionuclides from Estonian groundwater using aeration, oxidation, and filtration. Proceedings of the Estonian Academy of Sciences 61(1): 58–64.
Google Scholar
LeChevallier, M.W.; Norton, W.D. (1992). Examining relationships between particle counts. Giardia, Cryptosporidium and turbidity, JAWWA 12: 54-66.
Google Scholar
Maćkiewicz, J. (1987). Flocculation in coagulation and filtration processes. Warszawa: PWN [in Polish].
Google Scholar
Magrel, L. (2000). Water treatment and waste water treatment. Devices, processes, methods. Bialystok: Bialystok University of Technology Publisher. [in Polish].
Google Scholar
Munter, R.; Ojaste, H.; Sutt, J. (2005). Complexed Iron Removal from Groundwater. Journal of Environmental Engineering 131(7): 1014-1020.
Google Scholar
Michel, M. (2012). A study of application the modified chalcedonite for underground water treatment. Land Reclamation 44(2): 91–100.
Google Scholar
Ordinance of the Council of Ministers of 12 October 2015 on charges for using the environment. OJ 2015 item. 1875 [in Polish].
Google Scholar
Skoczko, I.; Horysz, M.; Szatyłowicz, E.; Malinowski, Ł. (2016). Economic analysis of adsorption beds used for water purification. Journal of Environmental Engineering 46: 88–93 [in Polish].
Google Scholar
Skoczko, I.; Miłaszewski, R.; Szatyłowicz, E.; Horysz, M.; Malinowski, Ł.; Marciniak, J. (2016). Comparison of economic efficiency of two multi-functional fields for water treatment. Economics and Environment 58: 212225 [in Polish].
Google Scholar
Vidović, M.; Trajković, I.; Rogan, S.; Petrović, V.; Jovanić, S. (2014) Removal of Manganese and Iron from Groundwater in the Presence of Hydrogen Sulfide and Ammonia. Journal of Water Resource and Protection 6: 1781-1792.
Google Scholar
Vidović, M.; Jovan, N.; Jovićević, J.; Krstić, D.; Tomić, I. D.; Rogan, S. (2010). The influence of pH on removal of H2S and natural organic matter by anion resin. Desalination and Water Treatment 21: 255–263.
Google Scholar
Zhou, H.; Smith, D.W. (2002). Advanced technologies in water and wastewater treatment. Journal of
Google Scholar
Environmental Engineering and Science 1(4): 247–264. Environment Protection Low (2017), Dz. U. 2017 item. 519
Google Scholar
www.terstan.pl. Accessed 10 February 2015.
Google Scholar
www.ekoserwis.poznan.pl. Accessed 11 February 2015.
Google Scholar
www.vilmart.pl. Accessed 02 February 2015.
Google Scholar
www.wigo.pl. Accessed 10 February 2015
Google Scholar
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Łukasz Malinowski##libcom.statistics##
Stažení
Nejaktuálnější články stejného autora (stejných autorů)
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