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Assessment of the impact of the Odra river water levels on groundwater levels in Rzeczyca region

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Groundwater table levels in a river valley depend, among other factors, on meteorological and hydrogeological conditions, land use and water levels in watercourses. The primary role of a watercourse is to collect surface and groundwater, and it becomes an infiltrating watercourse at high water levels. Changes in groundwater levels and the range of these changes depend chiefly on the shape, height and duration of the flood wave in the river channel. The assessment of flood wave impact on groundwater was based on long-term measurements of groundwater levels in the Odra valley and observations of water levels in the river channel. Simulations were performed with the use of in-house software FIZ (Filtracja i Zanieczyszczenia; Filtration and Contamination), designed for modelling unsteady water flows within a fully saturated zone. A two-dimensional model with two spatial variables was employed. The process of groundwater flow through a porous medium, non-homogeneous in terms of water permeability, was described with Boussinesq equation. The equation was solved with the use of finite element method. The model was applied to assess groundwater level fluctuations in the Odra valley in the context of actual flood waves on the river. Variations in groundwater table in the valley were analysed in relation to selected actual flood water levels in the Odra in 2001-2003 and 2010. The period from 2001 to 2003 was used to verify the model. A satisfactory agreement between the calculated and the measured values was obtained. Based on simulation calculations, it was proved that flood waves observed in 2010 caused a rise in groundwater table levels in a belt of approximately 1000 metres from the watercourses. It was calculated that at the end of hydrological year 2009/2010, the highest growths, of up to 0.80 m, were observed on piezometers located close to the Odra river channel. The passage of several flood waves on the Odra caused an increase of subsurface retention by 3.0% compared to the initial state.
Wydawca
Rocznik
Strony
3--17
Opis fizyczny
Bibliogr. 14 poz., tab., rys., wykr.
Twórcy
autor
Bibliografia
  • [1] Chalfen M., Description of FIZ (Filtracja i Zanieczyszczenia) software (in Polish), XXXIII Seminarium Zastosowań Matematyki, Kobyla Góra, 2003.
  • [2] Chalfen M., Głuchowska B., Pływaczyk L., Influence of the wave shape on the Odra on groundwater in the left-bank valley between Brzeg Dolny and Malczyce (in Polish), XXXIV Seminarium Zastosowań Matematyki, Kobyla Góra 2004.
  • [3] Głuchowska B., Pływaczyk L., Groundwater table in the Odra valley below the barrage in Brzeg Dolny (in Polish), UP Wroc., Monogr. LIV., 2008.
  • [4] Kinzelbach W., Groundwater modelling, Elsevier, 1986.
  • [5] Kowalski J., Hydrogeology with geology basics (in Polish), PWN, Warszawa 1987.
  • [6] Kowalski J., Chalfen M., Molski T., Report „Impact on water impoundment on Malczyce barrage on water-soil relations in the area of Rzeczyca village (in Polish), Inst. Inż. Środ. AR we Wrocławiu. Wrocław 2004.
  • [7] Pływaczyk L., Impact of the Odra on water-drainage relations in the valley in Brzeg Dolny– Malczyce region (in Polish), Zesz. Nauk. AR Wroc., Rozpr. Hab. nr 68, 1988.
  • [8] Pływaczyk L., Groundwater recharge with precipitation in the Odra valley in Malczyce region (in Polish), Zesz. Nauk. AR Wroc., Nr 209, 1992
  • [9] Pływaczyk L., Impact of river impoundment on a valley on an example of Brzeg Dolny (in Polish), AR Wroc., Monogr. XI, 1997.
  • [10] Praca zbiorowa, Geological-engineering documentation for Malczyce barrage (in Polish), PGIBW, Hydrogeo, Warszawa 1968.
  • [11] Praca zbiorowa 1970–2010, Studies of the impact of planned impoundment of the Odra on Malczyce barrage on water relations in the adjacent areas (in Polish), Inst. Kształt. i Ochr. Środ., AR Wroc., (unpublished).
  • [12] Sarma P.B.S., Delleur J.W., Rao A.R., Comparison of rainfall-runoff models for urban areas, J. Hydrol., 1973, 18(3–4).
  • [13] Wosiewicz B., Sroka Z., Walczak Z., Engineering software for analysing steady groundwater flows (in Polish), Gospodarka Wodna, 2005, Nr 2.
  • [14] Zienkiewicz O.C., Finite elements method (in Polish), Arkady, Warszawa 1972
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW8-0022-0007
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