View More View Less
  • 1 Geological and Geophysical Institute of Hungary, Budapest, Hungary
  • 2 University of West Hungary, Sopron, Hungary

A coupled groundwater flow and heat transport model was developed for a trans-boundary geothermal reservoir located in the Alpokalja area. The study area lies in the western part of the Pannonian Basin, at the border between Hungary and Austria. The study area contains several famous geothermal water utilizations on both sides of the border, which has an impact on natural groundwater conditions. The aim of the modeling study was to evaluate the natural-state and production-state groundwater conditions, and to make predictions on cross-boundary interferences. A three-dimensional finite element-type coupled geothermal model was constructed to provide a coherent quantitative representation of geothermal flow systems. The model described the hydraulic behavior of the flow system, the interaction between different reservoirs, and geothermal conditions.

If the inline PDF is not rendering correctly, you can download the PDF file here.

  • Csepregi, A., Gy. Ágotai, G. Izápy 2006: Wellhead protection zone delineation, Bük thermal spa area. — Manuscript, HYDROSYS Ltd.

  • Goetzl, G., F. Zekiri, L. Lenkey, D. Rajver, J. Svasta 2012: Summary report: Geothermal models at supra-regional scale for Transenergy project. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation
  • Kovács, A., Á. Rotár-Szalkai 2013a: Report on the Zsira–Lutzmannsburg pilot area model. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation
  • Kovács, A. , Á. Rotár-Szalkai 2013b: Report on the Zsira–Lutzmannsburg pilot area scenario modelling study. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation
  • Maros, Gy., R. Barczikay-Szeiler, L. Fodor, L. Gyalog, E. Jocha-Edelényi, Zs. Kercsmár, Á. Magyari, V. Maigut, L. Orosz, K. Palotás, I. Selmeczi, A. Uhrin, Zs. Vikor, B. Atzenhofer, R. Berka, M. Bottig, A. Brüstle, C. Hörfarter, G. Schubert, J. Weilbold, I. Baráth, K. Fordinál, B. Kronome, J. Maglay, A. Nagy, B. Jelen, A. Lapanje, H. Rifelj, I. Rižnar, M. Trajanova 2012: Summary report of Geological models of the Transenergy project. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation
  • Rotár-Szalkai, 2012: Evaluation of potential demonstration sites by outlining geothermal reservoirs above 50 °C. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation
  • Rotár-Szalkai, A., Gy. Tóth, Gy. Maros, L. Lenkey, G. Götzl, A. Lapanje, R. Černák 2013: Integrated geoscientific modelling of the Transenergy project area. — In: Geothermal Energy towards new horizon. European Geothermal Congress, Pisa, 37 June 2013, ISBN 978-2-8052-0226-1, extended abstract.

    • Search Google Scholar
    • Export Citation
  • Tóth, Gy., Á. Rotár-Szalkai, T. Kerékgyártó, T. Szőcs, E. Gáspár, A. Lapanje, N. Rman, J. Svasta, R. Cernak, A. Remsik, G. Schubert, R. Berka, G. Goetzl 2012: Summary report of the supra-regional hydrogeological model. — Project report, http://www.transenergy-eu.geologie.ac.at/.

    • Search Google Scholar
    • Export Citation

Monthly Content Usage

Abstract Views Full Text Views PDF Downloads
Nov 2020 0 11 1
Dec 2020 0 2 1
Jan 2021 0 3 1
Feb 2021 0 5 2
Mar 2021 0 2 0
Apr 2021 0 0 0
May 2021 0 0 0