PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Polskie złoża gazu ziemnego z łupków na tle wybranych niekonwencjonalnych złóż Europy Środkowo-Wschodniej

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
EN
Polish shale gas deposits in relation to selected shale gas perspective areas of Central and Eastern Europe
Języki publikacji
PL
Abstrakty
EN
This paper describes a regional overview of selected Central and Eastern European sedimentary basins which hold the unconventional potential for shale gas and shale oil exploration that have attracted interest in the last few years. Organic-rich fine-grained rocks like black and dark-grey shales, mudstones and claystones with varying ages from Cambrian to Miocene are distributed very irregularly across Europe. A long- -lasting, dynamic geological evolution and continuous reconstruction of the European continent resulted in the formation of many sedimentary basins. In some basins, biogeochemical conditions favoured preservation of accumulated organic-rich deposits and led to the generation of hydrocarbons after burial and reaching appropriate maturity levels. Even though shale gas and shale oil exploration in Europe is still in its infancy, shale formations were analyzed before as the source rocks in conventional petroleum systems. Parameters that were used to describe source rocks e.g.: total organic carbon, maturity, thickness, depth of occurrence and areal extent, can indicate preliminary potential for shale gas exploration and allow estimating first resource values. Currently the most intense shale gas exploration takes place in Poland where over 42 wells have been drilled and over 100 concessions for unconventional hydrocarbon exploration have been granted. Upper Ordovician and Lower Silurian shales at the East European Craton (Baltic and Lublin-Podlasie Basins) are the major targets for unconventional exploration in Poland. In Central and Eastern Europe, evaluation of the unconventional potential of gas-bearing shale formations is carried out also in Ukraine, Lithuania, Austria, Czech Republic, Hungary, Romania, Bulgaria, Moldavia and the European sector of Turkey. Despite the fact that each shale rock differs from another by geochemical, petrographical, petrophysical, mechanical and other parameters, some similarities can be seen such as marine type of depositional environment with the predominance of type II kerogen or specific organic matter content. Recoverable resources of shale gas throughout Europe are believed to be as large as 17.6 bln m3 and Poland, Ukraine, France with United Kingdom are thought to have the greatest resources.
Rocznik
Strony
411--423
Opis fizyczny
Bibliogr. 44 poz., rys., tab., wykr.
Twórcy
autor
  • Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy, ul. Rakowiecka 4, 00-975 Warszawa
autor
  • Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy, ul. Rakowiecka 4, 00-975 Warszawa
autor
  • Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy, ul. Rakowiecka 4, 00-975 Warszawa
Bibliografia
  • 1. ADAMEK J. 2005 - The Jurassic floor of the Bohemian Massif in Moravia - geology and paleogeography. Bull. Geosci., 80: 291-305.
  • 2. ALLEN P.A. & ALLEN J.R. 2005 - Basin analysis: principle and applications. Second Edition. Blackwell Publ., Oxford, s. 549.
  • 3. BGR 2012 - Abschätzung des Erdgaspotenzials aus dichten Tongesteinen (Schiefergas) in Deutschland. BGR, Hannover.
  • 4. BRANGULIS A.P., KANEV S.V., MARGULIS L.S. & POMERANT- SEVA R.A. 1993 - Geology and hydrocarbon prospects of the Paleozoic in the Baltic region. [W:] Parker J.R. (red.) Petroleum geology of northwest Europe. Proceedings of the 4th Conference, London, MarchApril 1992. Geol. Soc., London: 651-656.
  • 5. DANK V. 1987 - The role of Neogene deposits among the mineral resources in Hungary. [W:] Proceedings of the 8th Congress of the Regional Committee on Mediterranean Neogene Stratigraphy, Symposium on European Late Cenozoic Mineral Resources, Budapest, September 15-22, 1985. Ann. Hung. Geol. Inst., Budapest, 70: 9-17.
  • 6. DOLTON G.L. 2006 - Pannonian Basin Province, Central Europe (Province 4808) - petroleum geology, total petroleum systems, and petroleum resource assessment. USGS Bull., 2204-B, s. 47.
  • 7. DRYGANT D.M. 1993 - Conodont colour as the indicator of the geological processes (Volyn-Podillia) [po ukraińsku, z angielskim abstraktem]. Paleontologiceskij Zurnal, 23: 35-37.
  • 8. DRYGANT D.M. 2010 - Devonian Conodonts from South-West Margin of the East European Platform (Volyń-Podolian, Ukrain) [po ukraińsku, z angielskim abstraktem]. Academperiodyka, Kyiv: 1-156.
  • 9. FRANCÜ J., RADKE M., SCHAEFER R.G., POELCHAU H.S., CASLAVSKY J. & BOHAĆEK Z. 1996 - Oil-oil and oil-source rock correlations in the northern Vienna Basin and adjacent Carpathian Flysch Zone (Czech and Slovak area). [W:] Wessely G. & Liebl W. (red.) Oil and gas in Alpidic thrustbelts and basins of Central and Eastern Europe. Spec. Publ. Europ. Assoc. Geosci. Eng., 5: 343-353.
  • 10. GAUTIER D.L., PITMAN J.K., CHARPENTIER R.R., COOK T., KLETT T.R. & SCHENK C.J. 2012 - Potential for technically recoverable unconventional gas and oil resources in the Polish-Ukrainian Foredeep, Poland. USGS Fact Sheet 2012-3102, s. 2 [http://pubs.usgs. gov/fs/2012/3102].
  • 11. KLIMUSZKO E. 2002 - Utwory syluru południowo-wschodniej Polski jako skały potencjalnie macierzyste dla dewońskich rop naftowych. Biul. Państw. Inst. Geol., 402: 75-100.
  • 12. KÓKAI J. & POGACSAS G. 1991 - Tectono-stratigraphical evolution and hydrocarbon habitat of the Pannonian Basin. [W:] Spencer A.M. (red.) Generation, accumulation and production of Europe’s hydrocarbons I. Spec. Publ. Europ. Assoc. Petrol. Geosci. Eng., 1: 307-317.
  • 13. KOTARBA M.J. & KOLTUN Y.V. 2006 - The origin and habitat of hydrocarbons of the Polish and Ukrainian parts of the Carpathian Province. [W:] Golonka J. & Picha F.J. (red.) The Carpathians and their foreland: geology and hydrocarbon resources. AAPG Mem., 84: 395-442.
  • 14. KREZSEK C., LANGE S., OLARU R., UNGUREANU C., NAMAZ P., DUDUS R. & TURI V. 2012 - Non-conventional plays in Romania: the experience of OMV Petrom. [W:] SPE/EAGE European Unconventional Resources Conference and Exhibition, Vienna, Austria, March 20-22, 2012. Conference paper. Soc. Petrol. Eng., USA, SPE 153028.
  • 15. KUROVETS I.M. & KOLTUN Y.V. 2012 - Depositional environments of prospective for shale gas Silurian deposits of the East European Platform, Ukraine. [W:] 74th EAGE Conference & Exhibition, Copenhagen, June 4, 2012 [http://www.earthdoc.org/publication/ publicationdetails/?publication=59368].
  • 16. KUROVETS I., PRYTULKA H., SHYRA A., SHUFLYAK Y. & PERYT T.M. 2011 - Petrophysical properties of the pre-Miocene rocks of the outer zone of the Ukrainian Carpathian Foredeep. Ann. Soc. Geol. Pol., 81: 363-373.
  • 17. KUUSKRAA V., STEVENS S., VAN LEEUWEN T. & MOODHE K. 2011 - World shale gas resources: an initial assesment of 14 regions outside the United States. U.S. EIA& U.S. DOE, Washington, s. 365.
  • 18. LADWEIN H.W. 1988 - Organic geochemistry of Vienna Basin: model for hydrocarbon generation in overthrust belts. AAPG Bull., 72: 586-599.
  • 19. LAW B.E., ULMISHEK G.F., CLAYTON J.L., KABYSHEV B.P., PASHOVA N.T. & KRIVOSHEYA V.A. 1998 - Basin-centered gas evaluated in Dnieper-Donets basin, Donbas foldbelt, Ukraine. Oil and Gas J., 96:74-78.
  • 20. LAZAUSKIENE J. 2012 - Potential shale gas (oil) formations in Lithuania. EuroGeoSurvey Workshop: Assessment of the shale gas potential of the lower Paleozoic shales in Baltic Basin, Vilnus, Lithuania, August 23-24, 2012 [materiały konferencyjne].
  • 21. MODLIŃSKI Z. & SZYMAŃSKI B. 2008 - Litostratygrafia ordowiku w obniżeniu podlaskim i w podłożu niecki płocko-warszawskiej (wschodnia Polska). Biul. Państw. Inst. Geol., 430: 79-112.
  • 22. MODLIŃSKI Z., SZYMAŃSKI B. & TELLER L. 2006 - Litostratygrafia syluru polskiej części obniżenia perybałtyckiego - część lądowa i morska (N Polska). Prz. Geol., 54: 787-796.
  • 23. PAWLEWICZ M. 2007 - Total petroleum systems of the Carpathian- -Balkanian Basin Province of Romania and Bulgaria. USGS Bull., 2204-F: 1-17.
  • 24. PICHA F.J. & PETERS K.E. 1998 - Biomarker oil-to-source rock correlation in the Western Carpathians and their foreland, Czech Republic. Petrol. Geosci., 4: 289-302.
  • 25. PIG-PIB 2012 - Ocena zasobów wydobywalnych gazu ziemnego i ropy naftowej w formacjach łupkowych dolnego paleozoiku w Polsce (basen bałtycko-podlasko-lubelski). Raport pierwszy. Państw. Inst. Geol., Warszawa, s. 29.
  • 26. POGACSAS G., SZALAY A., BERCZY I., BARDÓCZ B., SZALOKI I. & KONCZ I. 1996 - Hydrocarbons in Hungary - exploration and development. [W:] Wessely G. & Liebl W. (red.) Oil and gas in Alpidic thrustbelts and basins of Central and Eastern Europe. Spec. Publ. Europ. Assoc. Geosci. Eng., 5: 37-38.
  • 27. POPRAWA P. 2010a - Potencjał występowania złóż gazu ziemnego w łupkach dolnego paleozoiku w basenie bałtyckim i lubelsko-podlaskim. Prz. Geol., 58: 226-249.
  • 28. POPRAWA P. 2010b - System węglowodorowy z gazem ziemnym w łupkach - północnoamerykańskie doświadczenia i europejskie perspektywy. Prz. Geol., 58: 216-225.
  • 29. POPRAWA P. & GROTEK I. 2005 - Revealing paleo-heat flow and paleooverpressures in the Baltic Basin from thermal maturity modelling. Mineralogia Spec. Pap., 26: 235-238.
  • 30. SACHSENHOFER R.F. & KOLTUN Y.V. 2012 - Black shales in Ukraine - a review. Mar. Petrol. Geol., 31: 125-136.
  • 31. SATKUNAS J., CYŻIENE J. & LAZAUSKIENE J. 2012 - Geothermal and unconventional energy development in Western Lithuania. 2ndInternational Conference EastLink: The Way to Knowledge Economy, Palanga, October 1-2, 2012 [http://www.east-link.eu/files/Mainy 2012/ presentation/Geothermal%20and%20unconventional%20%20 energy %20development%20in%20Western%20Lithuania%20- %20Dr.%20Jonas%20Satk+nas.pdf]
  • 32. SCHULZ H.-M., HORSFIELD B. & SACHSENHOFER R.F. 2010 - Shale gas in Europe: a regional overview and current research activities. Geol. Soc. London, Petrol. Geol. Conf. Ser., 7: 1079-1085.
  • 33. SEGHEDI A., VAIDA M., IORDAN M. & VERNIERS J. 2005 - Paleozoic evolution of the Romanian part of the Moesian Platform: an overview. Geol. Belg., 8: 99-120.
  • 34. SKOMPSKI S., ŁUCZYŃSKI P., DRYGANT D. & KOZŁOWSKI W. 2008 - High-energy sedimentary events in lagoonal successions of the Upper Silurian of Podolia, Ukraine. Facies, 54: 277-296.
  • 35. SKRĘT U. & FABIAŃSKA M.J. 2009 - Geochemical characteristics of organic matter in the Lower Palaeozoic rocks of the Peribaltic Syneclise (Poland). Geochem. J., 43: 343-369.
  • 36. SLIAUPA S., FOKIN P., LAZAUSKIENE J. & STEPHENSON R.A. 2006 - The Vendian-Early Palaeozoic sedimentary basins of the East European Craton. Geol. Soc. London, Mem., 32: 449-462.
  • 37. STEFANESCU M., DICEA O., BUTAC A. & CIULAVU D. 2006 - Hydrocarbon geology of the Romanian Carpathians, their foreland, and the Transylvanian Basin. [W:] Golonka J. & Picha F.J. (red.) The Carpathians and their foreland: geology and hydrocarbon resources. AAPG Mem., 84: 521-567.
  • 38. SZALAY A. & KONCZ I. 1993 - Migration and acumulation of oil and natural gas generated from Neogene source rocks in the Hungarian part of the Panonian Basin. [W:] Spencer A.M. (red.) generation, accumulation and production of Europe’s hydrocarbons III. Spec. Publ. EAGE, 3: 303-309.
  • 39. ULMISHEK G.F. 2001 - Petroleum geology and resources of the Dnieper-Donets Basin, Ukraine and Russia. USGS Bull., 2201-E, s. 14.
  • 40. TARI G., CIUDIN D., KOSTNER A., RAILEANU A., TULUCAN A., VACARESCU G. & VANGELOV D. 2011 - Play types of the Moesian Platform of Romania and Bulgaria. Search Discov., article #10311.
  • 41. VELICIU S. & POPESCU B. 2012 - Paleozoic shale gas plays of the Eastern Europe: Romania case study. [W:] Romania Oil & Gas Conference, Bucharest, December, 4-5, 2012 [http://www.romania-og.com/ RomaniaOG/media/Site_Images/ContentPhotos/Intercontinental/ 4-Bogdan-Popescu_Zeta.pdf].
  • 42. WESSELY G. 1990 - Geological results of deep exploration in the Vienna Basin. Geol. Runds., 79: 513-520.
  • 43. ZDANAVICIUTE O. & LAZAUSKIENE J. 2007 - The petroleum potential of the Silurian succession in Lithuania. J. Petrol. Geol., 30: 325-337.
  • 44. ZDANAVICIUTE O. & LAZAUSKIENE J. 2009 - Organic matter of Early Silurian succession - the potential source of unconventional gas in the Baltic Basin (Lithuania). Baltica, 22: 89-99.Polskie
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c021400c-d8b3-49b9-a9be-7ae484424f75
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.