Mathematical modelling for optimizing the electro-flotation process of water treatment

• Autorzy: Antonyova A. , Antony P.
• Języki publikacji: EN

Abstrakty

EN

Nowadays recycling wastewater is a task in progress. New ways of contamination have appeared together with the technology development. Our article deals with the case of wastewater contaminated with dispersed colorants that are used during the decoration of paper boxes for packaging various products. The wastewater treatment is based on the electro-flotation process. The system is fully automatic, with a possibility to set the time interval for the length of electro-flotation in the tank. The set of experimental laboratory work with equipment development is aimed at optimizing the time interval to manage the proper conditions according to the color used for decoration. LEDs are used to monitor the process. The results are analyzed using statistical methods. The optimum time interval of electro-flotation in a tank for the blue color was set at 25 min.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2015
• Tom: 24
• Numer: 2
• Opis fizyczny: p.483-490,fig.,ref.

Twórcy

autor

Antonyova A.

• Faculty of Management, Faculty of Management, University of Presov in Presov, Konstantinova 16, 08001 Presov, Slovak Republic

autor

Antony P.

• APmikro, Pavlovicovo namestie 19, 08001 Presov, Slovak Republic

Bibliografia

• 1. ALSAHLI M. M. M., PRICE K. P., BUDDEMEIER R., FAUTIN D. G., EGBERT S. Modeling Kuwait Seawater Clarity: A Spatial-Temporal Study Using Remote Sensing And GIS. Applied Remote Sensing Journal. 2, (2), 17, 2012.
• 2. IEEE Xplore Compliant, Catalog Number: CFP1464U-ART [In print].
• 3. JESMANITAFTI N., JOZI S. A., MONAVARI S. M. Review the Environmental Effects of Using Industrial Wastewater Effluent (Case Study: Iran Qom Shokouhie Industrial State). Journal of Environmental Protection. 5, 874, 2014.
• 4. KOROSTYNSKA O., MASON A., AL-SHAMMA’A A. Monitoring of Nitrates and Phosphates in Wastewater: Current Technologies and Further Challenges. International Journal on Smart Sensing and Intelligent Systems. 5, (1), 149, 2012.
• 5. THIRUPATHAIAH M., SAMATHA CH., SAMMAIAH CH. Analysis of water quality using physico-chemical parameters in lower manair reservoir of Karimnagar district, Andhra Pradesh. International Journal of Environmental Sciences. 3, (1), 172, 2012.
• 6. WEBSTER I. T., BRINKMAN R., PARSLOW J. S., PRANGE J., STEVEN A. DL., WATERHOUSE J. Review and Gap Analysis of Receiving-Water Water Quality Modelling in the Great Barrier Reef. Report to Department of Environment, Water, Heritage and the Arts. National Research FLAGSHIPS. 15 January 2008.
• 7. BALASAHEB JAMADAR, PURANDARA B. K. Review on Study of Lake Water Using Multi Sensor Remote Sensing Data. IOSR Journal of Mechanical and Civil Engineering. 6, (5), 50, 2013.
• 8. OKETOLA A. A., ADEKOLUREJO S. M., OSIBANJO O. Water Quality Assessment of River Ogun Using Multivariate Statistical Techniques. Journal of Environmental Protection. 4, 466, 2013.
• 9. ALLAN M. G., HICKS B. J., BRABYN L. Remote Sensing of Water Quality in the Rotorua Lakes. CBER Contract Report 51, The University of Waikato, Hamilton, pp. 1-27, 2007.
• 10. MEDEIROS DOS SANTOS G., LOPES-ASSAD M. L. R. C., HOTT M. C., OTENIO M. H. Water Quality and Agricultural Sustainability in the Mantiqueira Ecological Corridor, Brazil. Journal of Environmental Protection. 5, 500, 2014.
• 11. USALI N., ISMAIL M. H. Use of Remote Sensing and GIS in Monitoring Water Quality. Journal of Sustainable Development. 3, (3), 228, 2010.
• 12. OGUEKE CH. C., OWUAMANAM C. I., EZEKIEL J. I. Assessment of drinking water quality within a university community in Owerri, Nigeria. American Journal of Food Science and Nutrition. 1, (1), 1, 2014.
• 13. FEIGHERY L., WHITE M., BOWERS D., KELLY S., O’RIAIN G., BOWYER P. Feasibility study of the use of digital cameras for water quality monitoring in the coastal zone. Maritime Ireland/Wales INTERREG Report 7. Programme- Building Bridges. The Marine Institute, Dublin, pp. 1-32, 2001.
• 14. POLLMANN O., VAN RENSBURG L., WILSON F. Optimising the rehabilitation of polluted mine tailings and water by an organic medium passive acid mine drainage treatment in South Africa., Int. J. Environ. Pollut. 41, (3/4), 336, 2010.
• 15. ANTONYOVÁ A., ANTONY P., JOELIANTO E. Optimization the Process of Recycling the Water Contaminated with Dispersion Colorants. TIME-E, Bandung August 19-21, 2014, Indonesia.
• 16. ZIEGLER A. C. Issues Related to Use of Turbidity Measurements as a Surrogate for Suspended Sediment. Turbidity and Other Sediment Surrogates Workshop. Reno, NV, pp 1-3, April 30-May 2, 2002.

Identyfikatory

DOI

10.15244/pjoes/32730