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Title

Automatic batch sedimentation test based on histogram back-projection image analysis

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2021

Volume

69

Issue

No. 1

Affiliation

Nocoń, Witold : Faculty of Automatic Control, Electronics and Computer Science, Silesian University of Technology, ul. Akademicka 16, 44-100 Gliwice, Poland ; Pośpiech, Jakub : Faculty of Automatic Control, Electronics and Computer Science, Silesian University of Technology, ul. Akademicka 16, 44-100 Gliwice, Poland ; Kopciński, Jacek : MM Automation, ul. E. Bojanowskiego 27a, 40-772 Katowice, Poland

Authors

Nocoń, Witold ; Pośpiech, Jakub ; Kopciński, Jacek

Keywords

batch sedumentation test ; activated sludge ; image analysis ; control of recycle in WWTPs

Divisions of PAS

Nauki Techniczne

Coverage

e136187

Bibliography

  1.  M. Henze, P. Harremoës, J.C. Jansen, and E. Arvin, Wastewater treatment, Springer-Verlag, Berlin, 1995.
  2.  M. Metzger, “Mathematical model of sequentially controlled activated sludge processes”, Arch. of Cont. Sci. 9(3‒4), 111‒133 (1999).
  3.  J.Ph. Chancelier, M. Cohen de Lara, C. Joannis, and F. Pacard, “New insights in dynamic modeling of a secondary settler – I. Flux theory and steady-states analysis”, Wat. Res. 31(8), 1847‒1856 (1997).
  4.  H. Gao and M.K. Stenstrom, “Generalizing the effects of the baffling structures on the buoyancy-induced turbulence in secondary settling tanks with eleven different geometries using CFD models”, Chem. Eng. Res. Design. 143, 215‒225 (2019).
  5.  M. T. Shah et al., “A novel settling tank for produced water treatment: CFD simulations and PIV experiments”, J. Petro. Sci. Eng. 182, 106352 (2019)
  6.  E. Asensi, E. Alemany, P. Duque-Sarango, and D. Aguado, “Assessment and modelling of the effect of precipitated ferric chloride addition on the activated sludge settling properties”, Chem. Eng. Res. Design. 150, 14‒25 (2019).
  7.  X. Kang, Z. Xia, J. Wang, and W. Yang, „A novel approach to model the batch sedimentation and estimate the settling velocity, solid volume fraction, and floc size of kaolinite in concentrated solution”, Colloid Surf. A 579, 123647 (2019).
  8.  J. Wiora, A. Kozyra, and A. Wiora, “Towards automation of measurement process of surface water parameters by remote-controlled catamaran”, Bull. Pol. Ac.: Tech. 65(3), 351‒359 (2017).
  9.  R. Aguilar-López and I. Neria-González, “Controlling continuous bioreactor via nonlinear feedback: modelling an dsimulations approach”, Bull. Pol. Ac.: Tech. 64(1), 235‒241 (2016).
  10.  G.A. Ekama, et al., “Secondary settling tanks: theory, modeling, design and operation. of sludge sedimentation parameters”, IAWQ Scientific and Technical Report No. 6, IAWQ, London. 1997.
  11.  P.A. Vesilind, “Theoretical considerations: Design of prototype thickeners from batch settling tests”, Wat. Sew. Wks. 115(7), 302‒307 (1968).
  12.  I. Takács, G.G. Patry, and D. Nolasco, “A dynamic model of the clarification-thickening process”, Wat. Res. 25(10), 1263‒1271 (1991).
  13.  P. Grassia, S.P. Usher, and P.J. Scales, “Closed-form solution for batch settling height from model settling flux functions”, Chem. Engng. Sci. 66(5), 964‒972 (2011).
  14.  A. Vanderhasselt and P.A. Vanrolleghem, “Estimation of sludge sedimentation parameters from single batch settling curve”, Wat. Res. 34(2), 395‒406 (2000).
  15.  P. Vanrolleghem, et al., “On-line quantification of settling properties with in-sensor-experiments in an automated settlometer”, Wat. Sci. Tech. 33(1), 37‒51 (1996).
  16.  X. Lu, et al. “Automatic monitoring and quantitative characterization of sedimentation dynamics for non-homogenous systems based on image profile analysis”, Powder Technol. 281, 49‒56 (2015).
  17.  W. Suchecki, “Investigation of the sedimentation process using flow visualization methods”, Chem. And Proc. Eng. 40(2), 223‒233 (2019).
  18.  Y.J. Kim, S.J. Choi, H. Bae, and C.W. Kim, “Sludge settleability detection using automated SV30 measurement and its application to a field WWTP”, Wat. Sci. Technol. 64(8), 1743‒1749 (2011).
  19.  N. Derlon, Ch. Thürlimann, D. Dürrenmatt, and K. Villez, “Batch settling curve registration via image data modelling”, Wat. Res. 114, 327‒337 (2017).
  20.  Z-H. Li, D. Han, C-J. Yang, T-Y Zhang, and H-Q. Yu, “Probing operational conditions of mixing and oxygen deficiency using HSV color space”, J. Environ. Manage. 232, 985‒992 (2019)
  21.  Y. Xu, L. Zheng, R. Liu, and X. Dai, “Decyphering color for comprehensive utilization of sludge”, Resour. Conserv. Recycl. 153, 104579 (2020).
  22.  S.M. Pizer, et al., ”Adaptive histogram equalization and its variations”, Comp. Vis. Grap. Img. Proc. 39(3), 355‒368 (1987).
  23.  M.J. Swain and D.H. Ballard, “Color indexing”, Int. J. Comput. Vis. 7, 11‒32 (1991).
  24.  W. Niblack, An introduction to digital image processing, 1st English ed., Prentice Hall, 1986.

Date

26.01.2021

Type

Article

Identifier

DOI: 10.24425/bpasts.2021.136187

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2021; 69; No. 1; e136187
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