Water Supply (Jan 2022)

Analysis of kinetics of local hydraulic losses on the laterals of radial wells at Belgrade groundwater source

  • David Mitrinović,
  • Milenko Pušić,
  • Miodrag Popović,
  • Srđan Kovačević,
  • Milan Dimkić

DOI
https://doi.org/10.2166/ws.2021.234
Journal volume & issue
Vol. 22, no. 1
pp. 812 – 832

Abstract

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An analysis of the dynamics of the process of biochemical colmation of laterals of radial wells at the Belgrade groundwater source is presented. A very good correlation between the rate of forming of the colmations and the concentration of bivalent iron was obtained, on the basis of which the maximum recommended flows and velocities were defined, which are in good agreement with the values from previous articles and studies. The effects of regenerations on yield and the total volume of extracted water (up to 2 times higher than in the case of no regeneration) were investigated using a mathematical and software model. A correlation was developed linking the ratio of the amounts of water extracted with and without regeneration, to the aquifer hydraulic resistance, the coefficient of local hydraulic losses reduction due to regeneration, and the number of regenerations. The factor equal to the square root of the number of regenerations increased by one was added to the expressions for the maximum recommended values of inlet velocities and flows per lateral. The differences in flows and extracted volumes between operating modes with constant flow between regenerations and a constant, minimal water level were also examined using the model. The ratio between the total extracted volumes when the drawdown is kept equal to maximum and when the flow between the regenerations is kept constant reaches up to 1.25. HIGHLIGHTS Accurate correlation between the bivalent iron concentration in groundwater (and flow per lateral) and rate of increase of local hydraulic losses.; Mathematical and software model for the calculation of drawdown in radial wells that includes the effects and number of regenerations and rate of increase of the local hydraulic losses for the constant flow or constant level between the regenerations modi operandi.;

Keywords