Published April 9, 2024 | Version v1
Journal article Open

ANALYSIS AND SELECTION OF THE METHOD OF PURIFICATION OF OILY WASTEWATER

Creators

  • 1. Professor of the Department of Engineering Communications and Systems, Doctor of Technical Sciences, Professor (TSTrU)
  • 2. Professor, Tashkent State Transport University
  • 3. Acting Associate Professor, Tashkent State Transport University
  • 4. Associate Professor, Tashkent State Transport University
  • 5. senior lecturer, Tashkent State Transport University.

Description

This article is devoted to the analysis and selection of a method for wastewater treatment containing petroleum products. The advantages of baromembrane separation are given, as well as the rationale for choosing the ultrafiltration method as the most promising membrane method for wastewater treatment of transport enterprises. Ultrafiltration membranes have a wide range of applications in various industries. They are successfully used in the wastewater treatment processes of oil refineries and transport enterprises from emulsified petroleum products, in industrial wastewater reuse systems. For the purification of oily wastewater from transport enterprises, a design of a flat-chamber multi-section apparatus of the "filter press" type is proposed, which most fully meets the requirements for the purification of oily wastewater.

Files

154-158 Rizaev A new MJST.pdf

Files (748.6 kB)

Name Size Download all
md5:a26ac714b3a081de1eac41c5e6de7742
748.6 kB Preview Download

Additional details

References

  • 1. Adelshin, A.B. Intensification of the processes of hydrodynamic purification of oily wastewater [Text]: diss. ... doct. Technical sciences: 05.23.04: defended on 11/17/98 / Adelshin Azat Bilyalovich.-St. Petersburg, 1998.-74 with Bibliography: pp. 70-73.
  • 2. T.E.Mitchenko, E.M.Serene. The main ways to increase the efficiency of removing humic substances from water by ultrafiltration//Water and water treatment technologies.2011.No.3.pp.16-26.
  • 3. A.B.Yaroslavtsev. Membranes and membrane technologies.Moscow:Scientific World.2013.
  • 4. Swittsov A.A. Fundamentals of designing productions using membrane separation: a textbook./ A.A. Swittsov. – M. Mendeleev Russian Technical Technical University, 2013. – 219s. [electronic resource]. – URL ADDRESS:
  • 5. Wiesner M. R., Aptel P. Mass transfer, permeate flow and fouling in a pressure-controlled process. AWWA. Water treatment: Membrane. Proc. McGraw-Hill, New York, 1996.
  • 6. A.Sagiv.R.Semiat. Backwash of spirally wound RO membranes.Desalination 179 (2005), 1-9.
  • 7. [Email protected] URL: http://www.lenntech.com/membrane-cleaning.htm (<url> - (26.02.2024).
  • 8. D. Feng, J. S. J. van Deventer, C. Aldrich. Ultrasonic defouling of reverse osmosis membranes used to treat the effluents. Separation and Purification Technolog Article 50 (2006) P. 318–323.
  • 9. L.Mo, / / Huang / / Fouling characteristics and cleaning strategies in a coagulation - microfiltration combination process for animatater purification. Desalination, 159 (2003).P. 1-9.
  • 10. Andrianov A. P. Issledovanie I optimization Rabot / zonatok ochistki / VOD / metodom ul'trafil'racii Avtoref. dis.M.: MGSU. 2003.22 p.