Groundwater and mass transport modelling for documentation and protection of groundwater resources

• Autorzy: Nawalany M. , Przybyłek J. , Staśko S.
• Języki publikacji: EN

Abstrakty

EN

Short history of mathematical modeling of groundwater flow and transport in Poland is described. It shows brilliant and long tradition of this advanced aspect of hydrogeology. Mathematical modeling has been extensively used in Poland for years in solving practical problems concerning mainly groundwater abstraction, protection of groundwater resources and, recently, as a routine tool for environmental impact assessment whenever groundwater is involved. Use of numerical models in documenting groundwater resources and conditions of their restoration within regional water balance units are recalled. In particular - documenting admissible volumes of groundwater to be abstracted including wells operating in river valleys, determining protection zones for water supply wells and groundwater reservoirs, in particular for major groundwater basins (in Polish: GZWP), investigating optimal ways of abstracting fresh groundwater in areas where mineral waters occur, investigating alternative groundwater sources for supplying large agglomerations. Three examples: defining changes in groundwater chemical composition in conditions of intensive anthropogenic stress on the environment - impact from urban and industrial waste landfills, agriculture, transportation and municipal facilities on groundwater; coexistence of fresh and mineral waters and, finally, quantitative assessments of impacts from open-pit mines on groundwater in the mining stricken area are described in more detail. Last paragraph of the paper is a future looking assessment of aspects of mathematical modeling in Polish hydrogeology that need to be further developed. The aspects concern scientific issues like: scale problem, inverse problems and chemical reactions in subsoil. Also a need of developing specialized software, setting hardware infrastructure and training staff are addressed as the necessary conditions for keeping pace with world's hydrogeology.

Słowa kluczowe

EN

mathematical modeling; groundwater flow; mass transport in groundwater, groundwater protection; groundwater abstraction; documentation of water resources

PL

przepływ wód podziemnych; transportu masy w wodach podziemnych; ochrona wód podziemnych; pobór wód podziemnych

• Wydawca: Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy
• Czasopismo: Przegląd Geologiczny
• Rocznik: 2010
• Tom: Vol. 58, nr 9/1
• Strony: 816--823
• Opis fizyczny: Bibliogr. 56 poz., rys.

Twórcy

autor

Nawalany M.

autor

Przybyłek J.

autor

Staśko S.

• Warsaw University of Technology, Faculty of Environmental Engineering, ul. Nowowiejska 20, 00-653 Warszawa, Poland,

Bibliografia

• ANDRESON M.P. & WOESSNER W.W. 1991 - Applied groundwater modelling. Academic Press Inc. New York.
• AUER A. 1976 - Analogue modelling of processes of distributed constants [in Polish]. PWN, Warszawa.
• BAKALOVIC M. 2005 - Karst groundwater: a challenge for new resources. Hydrogeol. Journ., 13: 148-160.
• BECKER R., FISZER J. & KALISZ M. 2007 - Hydrogeology [in Polish]. [In:] Monografia KGHM Polska Miedź S.A. Wyd. KGHM Cuprum, Wrocław: 82-90.
• BERKOWITZ B. 2002 - Characterizing flow and transport in fractured geological media: A review. Advances in Water Resources, 25: 861-884.
• BOCHEŃSKA T. 1988 - The development of hydrodynamic conditions in the Lubin-Głogów copper-bearing area due to mine dewatering [in Polish]. Acta Univ. Wratisl. Pr. Geol.-Miner., 14: 1-148.
• BOCHEŃSKA T. 2003 - The hydrogeology of mineral deposits and water problems of copper mining. Fore-Sudetic Monocline [in Polish]. [In:] Hydrogeologia polskich złóż kopalin i problemy wodne górnictwa, 2: 20-56. Wyd. AGH, Kraków.
• BOCHEŃSKA T., FISZER J. & KALISZ M. 2000 - Prediction of groundwater inflow into copper mines of the Lubin-Głogów Copper District. Environ. Geol., 6: 587-594.
• BOCHEŃSKA T., LIMISIEWICZ P. & POPRAWSKI L. 1995 - Longterm changes in the shallow water table in a mining area: The Lubin-Glogow Copper Region, Southwestern Poland. Hydrogeol. Journ., 3: 41-52.
• BRYLSKA E., DĄBROWSKI S., PLECZYŃSKI J., PRZYBYŁEK J. & SZCZEPAŃSKI A. 1972 - Groundwater flow modelling of areas near water catchment sites [in Polish]. Wyd. Geol., Warszawa.
• DĄBROWSKI S. 1978 - Assessment of the use of mathematical modeling for predicting admissible volume of extracted groundwater [in Polish]. [In:] Rozpoznawanie wód podziemnych dla potrzeb gospodarki narodowej. Wyd. Geol., Warszawa.
• DĄBROWSKI S., GÓRSKI J., KAPUŚCIŃSKI J., PRZYBYŁEK J. & SZCZEPAŃSKI A. 2004a - Methodology for determination of admissible volume of extracted groundwater in catchments. Methodology guidebook [in Polish] Ministerstwo Środowiska, Warszawa.
• DĄBROWSKI S., RYNARZEWSKI W. & PAWLAK A. 1999 - Groundwater renewal in Górna Warta catchment in modelling investigation [in Polish]. Współczesne Problemy Hydrogeologii, 9: 29-36.
• DIERSCH H.J.G. & PERROCHET P. 2005 - FEFLOW finite element subsurface flow & transport simulation system. Manual book, WASY GmbH, Berlin.
• Directive 2000/60/EC of 23 October 2000, establishing a framework for Community action in the field of water policy. Official Journal EC L 327/1 (EU Water Framework Directive).
• DUDA R., ZDECHLIK R. & KANIA J. 1997 - Contaminant transport modelling as a tool for endangering assessment and protection of groundwater in the region of żelazny Most disposal site [in Polish]. Współczesne Problemy Hydrogeologii, 8: 213-218.
• EMSELLEM Y. 1975 - Construction de modeles mathematiques en hydrogeologie. ZPH, Przedsiębiorstwo Hydrogeologiczne w Poznaniu, Poznań (Polish translation).
• FELKEL B. & KASZTELAN D. 2006 - Review of groundwater numerical modelling use to hydrogeological research in Poland [in Polish]. Geologos, 10: 57-63.
• FISZER J. 2003 - Lower Silesian Coal Basin [in Polish]. [In:] Wilk Z. (ed.) Hydrogeologia polskich złóż kopalin i problemy wodne górnictwa, 1: 338-392. Wyd. AGH, Kraków.
• FISZER J. 2005 - Modelling studies of regional groundwater circulation system in areas affected by mines of the LGCB [in Polish]. Pr. Nauk. Gł. Inst. Górn. Ser. Konf., Zagadnienia interdyscyplinarne w górnictwie I geologii: 111-121.
• FLISOWSKI J. & WIECZYSTY A. 1979 - Analogue discrete modeling of groundwater catchments [in Polish]. Wyd. Geol., Warszawa.
• GETACHEW A.M. 2009 - Modelling groundwater-surface water interaction and development of an inverse groundwater modelling methodology. Doctoral thesis, Frije Universiteit Brussels (VUB), Brussels.
• HAŁADUS A., KULMA R. & JÓZEFKO I. 1995 - Groundwater resources of the żabnica-Breń drainage area according to model testing [in Polish]. Współczesne Problemy Hydrogeologii, 7: 155-163.
• JETEL J. 1986 - Vertical variations in permeability of flysch rocks in the Czechoslovak Carpathians. Geol. Quart., 29: 167-178.
• KLECZKOWSKI A.S., DOWNOROWICZ S., ZIMNY W. & BECKER R. 2007 - Hydrogeology of mineral deposits [in Polish]. [In:] Monografia KGHM, Polska Miedź S.A. Wyd. KGHM Cuprum, Wrocław: 133-142.
• KOWALCZYK A. & RUBIN K. 1995 - The effects of groundwater exploitation in the Bibiela well field based on mathematic modeling results [in Polish]. Współczesne Problemy Hydrogeologii, 7: 227-234.
• KRYZA J. & STAŚKO S. 2000 - Groundwater flow rate and contaminant migration in fissure - karstic aquifer of Opole Triassic system due to man activity. Environ. Geol., 39: 384-389.
• KULMA R. & ZDECHLIK R. 2009 - Modelling of groundwater flow processes [in Polish]. Wyd. AGH, Kraków.
• MACIOSZCZYK T. 1973 - Model methods of evaluating groundwater resources and balances [in Polish]. Prz. Geol., 10: 555-558.
• MAŁECKI J., NAWALANY M., WITCZAK S. & GRUSZCZYŃSKI T. 2006 - Determination of parameters of migration of pollutants in a porous medium [in Polish]. Wydz. Geol. Uniw. Warsz., Warszawa.
• MCDONALD M.G. & HARBAUGH A.W. 1988 - A modular threedimensional finite-difference ground-water flow model. U.S. Geol. Survey Open-File Report, Washington.
• MOTYKAJ. 1998 - Aconceptual model of hydraulic network in carbonate rocks, illustrated by examples from Poland. Hydrogeol. Journ., 6: 469-482.
• NAŁĘCKI P., REŚKO D., SCHMALZ A. & WITCZAK S. 2004 - Hydrogeological parameters description of fissured-porous therapeutic groundwater basin in Krynica [in Polish]. Biul. Państw. Inst. Geol., 404: 145-164.
• NAWALANY M. 1987 - FLOSA 3D, Introduction to system analysis of three-dimensional groundwater flow. Report TNO IAG OS 86-07, Delft.
• NAWALANY M. 1989 - FLOSA-FE finite element model of the three-dimensional groundwater velocity field. Report TNO IAG OS 89-12, Delft.
• NAWALANY M. 1993 - Mathematical modelling of river-aquifer interactions. Report SR 349, HR Wallingford.
• NAWALANY M. 1995a - Inverse problems of hydrogeology - basics. [In:] Troisi S. (ed.) Lectures of European Training Course on Parameter estimation in groundwater flow and pollution modelling, Cosenza.
• NAWALANY M. 1995b - Introduction to the Integrated System for Controlling and Monitoring Groundwater Remediation. Report TNOIAG OS 95-15B, March 1995, Delft.
• NAWALANY M. 1995c - Hydraulic Isolation of Uncontrolled Waste Disposal Sites. [In:] Gambolati G. & Verri G. (eds.) Advanced Methods for Groundwater Pollution Control, Springer Verlag, Wien, N.Y.
• NAWALANY M. 1999 - Scale problem in hydrogeology [in Polish]. Biul. Państw. Inst. Geol., 388: 179-190.
• NAWALANY M. 2008 - Modelling transport of substances undergoing physical-chemical processes and chemical reactions in groundwater flow [in Polish]. Biul. Państw. Inst. Geol. - Hydrogeologia, 431: 169-177.
• NAWALANY M., SINICYN G., KOCHANEK K. & CZYŻKOWSKI B. 2003 - A decision support system for groundwater: water management issues for opencast mining. [In:] Rosenbaum M.S. & Turner A.K. (eds.) New paradigms in subsurface prediction. Springer, Berlin.
• NAWALANY M. & STACHURSKI M. 2005 - Inverse problems in hydrogeology [in Polish]. Współczesne problemy hydrogeologii, 12. Wyd. Uniw. Mikołaja Kopernika, Toruń.
• NEMEÈEK J., MYL J. & NAWALANY M. 1995 - Optimization of pollution plume containment using management models. Proc. Int. Conf. on Groundwater Quality: Remediation and Protection, 15-18.05.1995, Praha.
• PACZYŃSKI B., MACIOSZCZYK T., KAZIMIERSKI B. & MITRĘGA J. 1996 - Establishing of groundwater disposable resources - methodological guidebook [in Polish]. Wyd. TRIO, Warszawa.
• PAZDRO Z. 1977 - Basic hydrogeology [in Polish].Wyd. Geol.,Warszawa.
• PRZYBYŁEK J. & RYSZKOWSKA J. 1989 - A numerical model of the MGWB of the Opole Monocline and Opole Depression [In:] Problemy hydrogeologiczne południowo-zachodniej Polski. Pr. Nauk. Politech. Wrocł., 58: 247-253.
• SINICYN G. 1998 - The effect of uncertainty on the accuracy of groundwater quality estimates near landfills [in Polish]. Politech.Warsz.,Warszawa.
• STAŚKO S. 1992 - Groundwater in Triassic carbonates of the Opole region [in Polish]. Acta Univ. Wratisl., 1407.
• STAŚKO S. & WCISŁO M. 2008 - The influence of the heterogeneity of the aquifer on the assessment of groundwater disposable resources [in Polish]. Biul. Państw. Inst. Geol. - Hydrogeologia, 431: 195-201.
• SZYMANKO J. 1972 - Concerning methods for planning and carrying out hydrogeological research in establishing groundwater resources [in Polish]. Prz. Geol., 11: 517-522.
• SZYMKIEWICZ A. 2004 - Modelling of the unsaturated water flow in highly heterogeneous Soils. Doctoral thesis, Joseph Fourier Universit and Gdańsk University of Technology, Grenoble.
• WIECZYSTY A. 1970 - Engineering hydrogeology [in Polish]. PWN, Warszawa-Kraków.
• WITCZAK S. & DUŃCZYK L. 2004 - Regional multilayer model of a groundwater flow system in the Carpathians Flysch; example of the Kryniczanka watershed [in Polish]. Biul. Państw. Inst. Geol., 404: 263-290.
• ZIJLW. & NAWALANY M. 1993 - Natural groundwater flow. Lewis Publ. Comp., Boca Raton, London.
• ZIJLW. & NAWALANY M. 2004 - The edge based face element method for 3D-stream function and flux calculations in porous media flow. Transport in porous media, 55: 361-382.