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  • 1 University of Szeged, Szeged, Hungary
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The general characterization of the Hungarian Szentes geothermal field is presented based on the review of previous research and is supplemented with the analysis of well hydraulic tests. Forty thermal wells were included in the study area, producing mainly from Upper Pannonian sandstone reservoirs. The intensive and long-term production of thermal water reservoirs without reinjection resulted in significant reservoir pressure decrease from natural conditions. By means of deep-well pressure build-up curves, deep-well capacity curves and surface pressure curves the reservoir condition changes were described in the last half century.

  • Barcza, M., A. Bálint, S. Kiss, J. Szanyi, B. Kovács 2011: A Szentes térségi hévíztároló képződmények hidrodinamikai viszonyai szivattyú tesztek kiértékelése alapján. — A Miskolci Egyetem Közleménye, A, Bányászat (Hydrodynamical background of the thermal aquifer in the surroundings of Szentes based on the results of pump tests — University of Miskolc Proceedings A, Mining). 81, pp. 245254.(in Hungarian.

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  • Bélteky L. , L. Alföldi, K. Korim, F. Marcell, Sz. Papp, R. Rémi, F. Simon, J. Urbancsek 1965: Magyaroroszág hévízkútjai (hévízkútkataszter) [Thermal wells of Hungary (Thermal well database)]. — VITUKI, Budapest, 138 p. (in Hungarian)

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  • Bélteky L. , L. Budai, L. Kassai, L. Konyor, K. Korim, B. Mayerszky, B. Szpiriev 1970: Különleges geotermikus adottságaink kiaknázási lehetőségeinek vizsgálata; 7. számú kiegészítés: Szentes és környékén mélyített hévízkutak vizsgálata egymásrahatás és vízkészletszámítás szempontjából (Investigation of exploitation of Hungarian geothermal energy; Addition No. 7. Investigation of thermal wells in the surroundings of Szentes). — Manuscript, 99 p. (in Hungarian.

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  • Bobok, E., A.N. Tóth 2007: Geotermikus energiatermelő rendszerek hőveszteségeinek minimalizálása (Minimizing the heat loss of geothermal systems). — Manuscript, OTKA, 81 p. (in Hungarian.

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  • Budai, T., L. Gyalog 2010: Magyarország földtani atlasza országjáróknak (Geological Atlas of Hungary for excursionists). — Geological Institute of Hungary, Budapest, 248 p. (in Hungarian.

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  • Gruber, Gy. 2002: Zárt kútfejnyomás mérése (Measuring wellhead pressure). — Manuscript, University of Szeged, 12 p. (in Hungarian.

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  • Gyenese, I. 2013: Hidrodinamikai vizsgálatok a CH, termálvíz és szilárdásvány-bányászatban (Well testing investigation in hydrocarbon, thermal water and mining industry). — Manuscript, University of Szeged, 86 p. (in Hungarian.

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  • Juhász, Gy. 1989: A szentesi geotermikus mező regionális geológiai modellje (Regional geological model of the Szentes Geothermal Field). — Magyar Szénhidrogénipari Kutató-Fejlesztő Intézet, Százhalombatta, 34 p. (in Hungarian.

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  • Juhász, Gy. 1991: Lithostratigraphical and sedimentological framework of the Pannonian (s.l.) sedimentary sequence in the Hungarian Plain (Alföld), Eastern Hungary. — Acta Geologica Hungarica, 34/1–2, pp. 5372.

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  • Kassai, L. 1960: Termelőkutak nyomásemelkedési görbéinek értékelése (Evaluation of wellhead pressure). — Bányászati és Kohászati Lapok, 93/11–12–13, pp. 703715.775784.849856.(in Hungarian.

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  • Korim, K. 1966: A pannóniai rétegek víztároló- és vízadóképességét meghatározó földtani tényezők (Geological background of Pannonian aquifers). — Hidrológiai Közlöny, 46/11, pp. 522531.(in Hungarian.

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  • Korim, K. 1972: Nagymélységű porózus víztároló képződmények jellemzői és működésmódja (Features of deep porous aquifers). — Vízügyi Közlemények, 54/4, pp. 369392.(in Hungarian.

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  • Korim, K. 1991: A szentesi hévízmező feltárásának és termelésének három évtizedes története (Three decades of research and utilization in the Szentes Geothermal Field). — Bányászati és Kohászati Lapok, 124/6, pp. 179184.(in Hungarian.

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  • Korim, K., P. Liebe 1973: A szentesi hévíztároló rendszer (The Szentes Geothermal Field). — Vízügyi Közlemények, 55/3, pp. 290311.(in Hungarian.

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  • Szanyi, J., B. Kovács 2010: Utilization of geothermal systems in South-East Hungary (Utilization of geothermal systems in South-East Hungary). — Geothermics, 39/4, pp. 357364.

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  • Szongoth, G. 2012: Jedlik Projekt 2009–2011, összefoglaló jelentés (Summary Report of Jedlik Project 2009–2011). — Manuscript, 79 p. (in Hungarian.

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  • Varsányi, Z 2001: A Dél-Alföld felszín alatti vizei; hidrogeokémiai folyamatok és vízföldtani következtetések [Origin and hydrochemical processes of formation waters in the Pannonian Basin (Southeast Hungary)]. — PhD thesis, University of Szeged, 126 p. (in Hungarian)

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Senior editors

Editor(s)-in-Chief: Attila DEMÉNY

Deputy Editor(s)-in-Chief: Béla RAUCSIK

Co-ordinating Editor(s): Gábor SCHMIEDL

Editorial Board

  • Zsolt BENKÓ (Geochemistry, Ar dating; Institute for Nuclear Research, Debrecen)
  • Szabolcs HARANGI (Petrology, geochemistry, volcanology; Eötvös Loránd University, Budapest)
  • Anette GÖTZ (Sedimentology; Landesamt für Bergbau, Energie und Geologie, Hannover)
  • János HAAS (Regional Geology and Sedimentology; Eötvös Loránd University, Budapest)
  • István Gábor HATVANI (Geomathematics; Institute for Geological and Geochemical Research, Budapest)
  • Henry M. LIEBERMAN (Language Editor; Salt Lake City)
  • János KOVÁCS (Quaternary geology; University of Pécs)
  • Szilvia KÖVÉR (Sedimentology; Eötvös Loránd University, Budapest)
  • Tivadar M. TÓTH (Mineralogy; Petrology    University of Szeged)
  • Stephen J. MOJZSIS (Petrology, geochemistry and planetology; University of Colorado Boulder)
  • Norbert NÉMETH (Structural geology; University of Miskolc)
  • Attila ŐSI (Paleontology; Eötvös Loránd University, Budapest)
  • József PÁLFY (Fossils and Stratigraphic Records; Eötvös Loránd University, Budapest)
  • György POGÁCSÁS (Petroleum Geology; Eötvös Loránd University, Budapest)
  • Krisztina SEBE (Tectonics, sedimentology, geomorphology University of Pécs)
  • Ioan SEGHEDY (Petrology and geochemistry; Institute of Geodynamics, Bucharest)
  • Lóránd SILYE (Paleontology; Babeș-Bolyai University, Cluj-Napoca)
  • Ákos TÖRÖK (Applied and Environmental Earth Sciences; Budapest University of Technology and Economics, Budapest)
  • Norbert ZAJZON (Petrology and geochemistry; University of Miskolc)
  • Ferenc MOLNÁR (ore geology, geochemistry, geochronology, archaeometry; Geological Survey of Finland, Espoo)

Advisory Board

Due to the changes in editorial functions, the Advisory Board has been terminated. The participation of former Advisory Board members is highly appreciated and gratefully thanked.

CENTRAL EUROPEAN GEOLOGY
Institute for Geochemical Research
Hungarian Academy of Sciences
Address: Budaörsi út 45. H-1112 Budapest, Hungary
Phone: (06 1) 309 2681
Phone/fax: (06 1) 319 3137
E-mail: demeny@geochem.hu

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2020  
Scimago
H-index
24
Scimago
Journal Rank
0,253
Scimago
Quartile Score
Geology Q3
Scopus
Cite Score
59/33=1,8
Scopus
Cite Score Rank
Geology 134/251 (Q3)
Scopus
SNIP
0,679
Scopus
Cites
146
Scopus
Documents
4
Days from submission to acceptance 247
Days from acceptance to publication 229
Acceptance
Rate
36%

 

2019  
Scimago
H-index
22
Scimago
Journal Rank
0,313
Scimago
Quartile Score
Geology Q3
Scopus
Cite Score
43/33=1,3
Scopus
Cite Score Rank
Geology 151/235(Q3)
Scopus
SNIP
0,593
Scopus
Cites
106
Scopus
Documents
7
Acceptance
Rate
47%

 

Central European Geology
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Central European Geology
Language English
Size Vol 1-63: B5
Vol 64- : A4
Year of
Foundation
2007 (1952)
Publication
Programme
2021 Volume 64
Volumes
per Year
1
Issues
per Year
4
Founder Magyar Tudományos Akadémia  
Founder's
Address
H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó
Publisher's
Address
H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
Responsible
Publisher
Chief Executive Officer, Akadémiai Kiadó
ISSN 1788-2281 (Print)
ISSN 1789-3348 (Online)

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