Petroleum processes in the Palaeozoic and Mesozoic strata between Tarnów and Rzeszów (SE Poland) : 2-D modelling approach

Wróbel, M.; Kosakowski, P.; Krzywiec, P.

Artykuł - szczegóły

Tytuł artykułu

Petroleum processes in the Palaeozoic and Mesozoic strata between Tarnów and Rzeszów (SE Poland) : 2-D modelling approach

Autorzy

Wróbel M. , Kosakowski P. , Krzywiec P.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Two-dimensional modelling of hydrocarbon generation, expulsion, migration and accumulation pro- cesses in SE Poland between Tarnów and Rzeszów was carried out for five source rock horizons, i.e. the Ordo- vician, Silurian, Middle Devonian–Lower Carboniferous carbonates, Lower Carboniferous clastics, and Middle Jurassic. Five cross-sections in the study area allowed the reconstruction of timing and range of petroleum processes. The best source rocks related to the Ordovician and Silurian shales and mudstones reached “oil window” maturity within the entire study area and locally also reached the “gas window”. Generation of hydro- carbons was observed from all five source rocks, but the Ordovician and Silurian source rocks generated two and three times more hydrocarbons than the Lower Carboniferous and Jurassic source rocks, respectively. Expulsion took place only in case of the Lower Palaeozoic source rocks, but the volume of expelled hydrocarbons differed across the area. Hydrocarbons migrated from the Ordovician and Silurian source rocks to the Upper Jurassic (carbonates) and Upper Cretaceous (sandstones) reservoirs or to the Upper Palaeozoic carbonates in connection with the emplacement of the Carpathian thrust belt during the Miocene. Faults formed main migration pathways and hydrocarbons accumulated in structural and stratigraphic traps, located in the vicinity of faults. In places, traps are associated with a deep Miocene erosion surface. The onset of hydrocarbon generation took place during the Neogene, mainly the Miocene, but in the north, generation and expulsion started earlier – at the end of the Mesozoic.

Słowa kluczowe

petroleum processes 2D modelling Mesozoic Palaeozoic Tarnów–Rzeszów area SE Poland

Wydawca

Polskie Towarzystwo Geologiczne

Czasopismo

Annales Societatis Geologorum Poloniae

Rocznik

2012

Tom

Vol. 82, No. 1

Strony

81–--97

Opis fizyczny

Bibliogr. 51 poz., wykr.

Twórcy

autor

Wróbel M.

wrobelm@agh.edu.pl

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection, Al. Mickiewicza 30, 30-059 Kraków, Poland

autor

Kosakowski P.

AGH University of Science and Technology, Faculty of Geology, Geophysics and Environmental Protection, Al. Mickiewicza 30, 30-059 Kraków, Poland

autor

Krzywiec P.

Polish Geological Institute – National Research Institute, ul. Rakowiecka 4, 00-975 Warszawa, Poland

Bibliografia

1. Belka, Z., 1993a. Remarks on thermal maturity level in the subsurface of the Upper Silesian Coal Basin. Acta Geologica Polonica, 43: 95-101.
2. Belka, Z., 1993b. Thermal and burial history of the Cracow-Silesia region (southern Poland) assessed by conodont CAI analysis. Tectonophysics, 227: 161-190.
3. BMRM 2-D, 2006. BasinMod™ 2-D Reference Manual. Platte River Association, Boulder, Colorado.
4. Buła, Z. & Habryn, R. (eds), 2008. Geological-structural atlas of the Palaeozoic basement of the Outer Carpathians and Carpathian Foredeep. (In Polish and English). Państwowy Instytut Geologiczny, Warszawa.
5. Buła, Z. & Habryn, R., 2011. Precambrian and Palaeozoic basement of the Carpathian Foredeep and the adjacent Outer Carpathians (SE Poland and western Ukraine). Annales Societatis Geologorum Poloniae, 81: 221-239.
6. Buła, Z., Żaba, J. & Habryn, R., 2008. Tectonic subdivision of Poland: southern Poland (Upper Silesian Block and Małopolska Block). (In Polish, English summary). Przegląd Geologiczny, 56: 912-920.
7. Dadlez, R., Marek, S. & Pokorski, J. (eds), 1998. Palaeogeographical atlas of the epicontinental Permian and Mesozoic in Poland, 1:2,500,000. (In Polish and English). Państwowy Instytut Geologiczny, Warszawa.
8. Gutowski, J. & Koyi, H., 2007. Infuence of oblique basement strike-slip faults on the Mesozoic evolution of the south-eastern segment of the Mid-Polfsh Trough. Basin Research, 19: 67-86.
9. Jawor, E. & Baran, U., 2004. Geological setting and characteristics of Carboniferous strata in the southern part of the Małopolska block. (In Polish, English summary). In: Kotarba, M. J. (ed.), Hydrocarbon generation potential of Carboniferous rocks in the southern part of the Upper Silesian and Małopolska blocks. Towarzystwo Badania Przemian Środowiska „Geosfera”. Wydawnictwo Naukowe „Akapit”, Kraków: 25-48.
10. Karnkowski, P., 1974. Zapadlisko przedkarpackie - Część wschodnia (na wschód od Krakowa). (In Polish). In: Pożaryski, W. (ed.), Budowa Geologiczna Polski, IV(1) Tektonika - Niż Polski. Wydawnictwa Geologiczne, Warszawa: 402-416.
11. Karnkowski, P., 1999. Oil and gas deposits in Poland. Geosynoptics Socifty “Geos” - AGH Univertity of Scitnce and Technology, Kraków, 380 pp.
12. Karwasiecka, M., 2001. The geothermal field of the Upper Silesian Coal Basin. (In Polish, English summary). Proceedings of the International Scientific Conference “Geothermal Energy in Underground Mines”, November 21-23, 2001, Ustroń, Poland, p. 41-49.
13. Karwasiecka, M. & Bruszewska, B., 1997. Pole cieplne na obszarze Polski. (In Polish). Unpublished report, Centralne Archiwum Geologiczne, Państwowy Instytut Geologiczny, Warszawa.
14. Kosakowski, P. & Wróbel, M., 2011. Burial and thermal history and hydrocarbon generation modelling of the Lower Palaeozoic source rocks in the Kraków-Rzeszów area (SE Poland). Annales Societatis Geologorum Poloniae, 81: 459-471.
15. Kosakowski, P. & Wróbel, M., in press. Burial and thermal history and hydrocarbon generation modelling of the Jurassic source rocks in SE Poland. Geologica Carpathica.
16. Kosakowski, P., Kotarba, M. J., Więcław, D., Wróbel, M., Dziadzio, P. & Kowalski, A., 2010. Organic geochemical study and hydrocarbon generation modelling of the Palaeozoic- Mesozoic basement in the Tarnów-Dębica area. In: Oil and gas - conventional and unconventional plays. 3rd Scientific- Technical Conference: Czarna, 11-14 kwietnia 2010. Uniwersytet Warszawski, Warszawa: 31-32.
17. Kosakowski, P., Leśniak, G. & Krawiec, J., 2012. Reservoir properties of the Palaeozoic-Mesozoic strata in the Kraków- Lubaczów area (SE Poland). Annales Societatis Geologorum Poloniae, 82: 51-64.
18. Kosakowski, P., Więcław, D., Kotarba, M. J. & Kowalski, A., in press. Hydrocarbon potential of the Mesozoic strata between Kraków and Rzeszów (SE Poland). Geological Quarterly.
19. Kotarba, M., Kosakowski, P & Burzewski, P., 2004. Hydrocarbon generation and expulsion processes based on one dimensional numerical modelling and generation potential of Carboniferous strata in the southtrn part of the Upper Silesian and Małopolska blocks. (In Pohsh, Engtish summary). In: Kotarba, M. J. (ed.), Hydrocarbon generation potential of Carbon iferous rocks in the southern part of the Upper Silesian and Małopolska blocks. Towarzystwo Badania Przemian Środowiska “Geosfera”. Wydawnictwo Naukowe “Akapit”, Kraków: 87-116.
20. Kotarba, M. J., Więcław, D., Kosakowski, P., Zacharski, J. & Kowalski, A., 2003. Evaluation of source rock and petroleum potential of Middle Jurassic strata in the south-eastern part of Poland. (In Polish, English summary). Przegląd Geologiczny, 51: 1031-1040.
21. Krajewski, M., Matyszkiewicz, J., Król, K. & Olszewska, B., 2011. Facies of the Upper Jurassic-Lower Cretaceous deposits from the southern part of the Carpathian Foredeep basement in the Kraków-Rzeszów area (southern Poland). Annales Societatis Geologorum Poloniae, 81: 269-290.
22. Krzywiec, P., 2001. Contrasting tectonic and sedimentary history of the central and eastern parts of the Polish Carpathian Foredeep Basin - results of seismic data interpretation. Marine & Petroleum Geology, 18: 13-38.
23. Krzywiec, P., Gutowski, J., Walaszczyk, I., Wróbel, G. & Wybraniec, S., 2009. Tectonostratigraphic model of the late Cretaceous invers ion along the Nowe Miasto-Zawichost fault zone, SE Mid-Polish Trough. Geological Quarterly, 53: 27-48.
24. Kuśmierek, J., Maćkowski, T. & Łapinkiewicz, A. P., 2001. Effects of synsedimentary thrusts and folds on the results of two-dimensional hydrocarbon generation modeling in the eastern Polish Carpathians. (In Polish, English summary). Przegląd Geologiczny, 49: 412-417.
25. Lamarche, J., Bergerat, F., Lewandowski, M., Mansy, J-L., Świdrowska, J. & Wieczorek, J., 2002. Variscan to Alpine heterogeneous palaeo-stress field above a maj or Palaeozoic suture in the Carpathian foreland (southeastern Poland). Tectonophysics, 357: 55-80.
26. Lamarche, J., Lewandowski, M., Mansy, J-L. & Szulczewski, M., 2003. Partitionmg pre-, syn- and post-Variscan deformation in the Holy Cross Mountains, eastern Variscan foretand. In: McCann, T. & Saintot, A. (eds), Tracing Tectonic Deformation Using Sedimentary Record. Geological Society, Special Publication, 2008: 159-184.
27. Lamarche, J., Mansy, J-L., Bergerat, F., Averbuch, O., Hakenberg, M., Lewandowski, M., Stupnicka, E., Świdrowska, J., Wajsprych, B. & Wieczorek, J., 1999. Variscan tectomcs in the Holy Cross Mountains (Poland) and the role of structural in heritance during Alpine tectonics. Tectonophysics, 313: 171-186.
28. Lamarche, J., Swidrowska, J., Bergerat, F., Hakenberg, M., Mansy, J.-L., Wieczorek, J., Stupnicka, E. & Dumont., T., 1998. Development and deformation of a Mesozoic basin adjacent to the Teisseyre-Tornquist Zone: The Holy Cross Mountains (Poland). In: Crasquin-Soleau, S. & Barrier, E. (eds), Peri-Tethys Memoir 4: Epicratonic basins of Peri- Tethyan platforms. Memoires du Museum National d’Histoire Naturelle, 179: 75-92.
29. Lewandowski, M., 1994. Palaeomagnetic constrains for Variscan mobilism of the Upper Silesia and Małopolska Massifs, southern Poland. Geological Quarterly, 38: 211-230.
30. Lewandowski, M., 2003. Assambly of Pangea: combined paleomagnetic and paleoclimatic approach. Advances in Geophysics, 46: 199-236.
31. Maćkowski, T., Kuśmierek, J., Reicher, B., Baran, U., Kosakowski, P., Łapinkiewicz P., Machowski, G., Papiernik B., Szczygieł M., Zając, A. & Zych I., 2009. Two-dimensional models of the organic-matter thermal transformation and hydrocarbon expulsion in the transfrontier zone of the Polish and Ukrainian Carpathians. (In Polish, English summary). Geologia, Kwartalnik AGH, 35: 191-222.
32. Majorowicz, J., 1984. Problems of tectonic interpretation of geothermal field distribution in the platform areas of Poland. Publications of the Institute of Geophysics, Polish Academy of Sciences, A-13 (160): 149-166.
33. Majorowicz, J. & Plewa, S., 1979. Study of heat flow in Poland with special regard to tectonophysical problems. In: Cermak. V. & Rybach, L. (eds), Terrestial Heat Flow in Europe. Springer-Verlag, Berlin: 240-251.
34. Maksym, A., Baszkiewicz, A., Gregosiewicz, Z., Liszka, B. & Zdanowski, P., 2001. Środowiska sedymentacji i właściwości zbiornikowe utworów najwyższej jury i kredy dolnej rejonu Brzezówka-Zagorzyce na tle budowy geologicznej S części zapadliska przedkarpackiego. (In Polish, English summary). Przegląd Geologiczny, 49: 401-407.
35. Marek, S. & Pajchlowa, M. (eds), 1997. Epikontynentalny perm i mezozoik w Polsce. (In Pollsh). Prace Państwowego Instytutu Geologicznego, 153: 1-452.
36. Myśliwiec, M., Borys, Z., Bosak, B., Liszka, B., Madej, K., Maksym, A., Oleszkiewicz, K., Pietrusiak, M., Plezia, B., Staryszak, G., Swiętnicka, G., Zielińska, C., Zychowicz, K., Gliniak, P., Florek, R., Zacharski, J., Urbaniec, A., Górka, A., Karnkowski, P. & Karnkowski, P. H., 2006. Hydrocarbon resources of the Polish Carpathian Foredeep: reservoirs, traps, and selected hydrocarbon fields. In: Golonka, J. & Picha, F. J. (eds), The Carpathians and Their Foreland: Geology and Hydrocarbon Resources, American Association of Petroleum Geologists Memoir, 84: 351-393.
37. Narkiewicz, M., 2002. Ordovician through earliest Devonian development of the Holy Cross Mts. (Poland): constraints from subsidence analysis and thermal maturity data. Geological Quarterly, 46: 255-266.
38. Narkiewicz, M., 2007. Development and inversion of Devonian and Carbonlferous basins in the eastern part of the Variscan foreland (Poland). Geological Quarterly, 51: 231-256.
39. Nawrocki, J., 2000. Late Silurian paleomagnetic pole from the Holy Cross Mount ains: cons trains for the post-Caledonian tectonic activity of the Trans-European Suture Zone. Earth and Planetary Science Letters, 179: 325-334.
40. Oszczypko, N., Krzywiec, P., Popadyuk, I. & Peryt, T., 2006. Carpathian Foredeep Basin (Poland and Ukraine): Its sedl mentary, structural, and geodynamic evolution. In: Golonka, J. & Picha, F. J. (eds), The Carpathians and Their Foreland: Geology and Hydrocarbon Resources. American Association of Petroleum Geologists Memoir, 84: 293-350.
41. Peters, K. E. & Cassa, M. R., 1994. Applied source rock geochemistry. In: Magoon, L. B. & Dow, W. G. (eds), The Petroleum System-From Source to Trap. American Association of Petroleum Geologists Memoir, 60: 93-120.
42. Plewa, S., 1994. Rozkład parametrów geotermalnych na obszarze Polski. (In Polish). Wydawnictwo Centrum Podstawowych Problemów Gospodarki Surowcami Mineralnymi i Energią PAN, Kraków, 138 pp.
43. Poprawa, P., 2006a. Neoproterozoic break-up of the supercontinent Rodinia/Pannotia recorded by development of sedl menlary baslns at the western slope of Baltica. (In Polish, English summary). In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and Thermal Evolution of the Pomeranian Sector of Trans-European Suture Zone and Adjacent Areas. Prace Państwowego Instytutu Geologicznego, 186: 165-188.
44. Poprawa, P., 2006b. Development of the Caledonian collilion zone along the western margin of Baltica and its rel at ion to the foreland basin. (In Polish, English summary). In: Matyja, H. & Poprawa, P. (eds), Facies, Tectonic and Thermal Evolu¬tion of the Pomeranian Sector of Trans-European Suture Zone and Adjacent Areas. Prace Państwowego Instytutu Geologicznego, 186: 189-214.
45. Poprawa, D. & Nemcok, J. (eds), 1989. Geological atlas of the Western Outer Carpathians. Państwowy Instytut Geologiczny, Warszawa.
46. Poprawa, P., Narkiewicz, M., Sliaupa, S., Stephenson, R. A. & Lazauskiene, J., 1997. Caledonian accretion along TESZ. Terra Nostra, 11: 110-117.
47. Więcław, D., Kotarba, M. J., Kowalski, A. & Kosakowski, P., 2011. Habitat and hydrocarbon potential of the Palaeozoic source rocks in the Kraków-Rzeszów area (SE Poland). Annales Societatis Geologorum Poloniae, 81: 375-394.
48. Wróbel, M. & Kosakowski, P., 2010. 2-D modelling of petroleum processes of the lower Paleozoic strata in the Pollsh part of the Baltic region. Geological Quarterly, Warszawa, 54: 257-266.
49. Wróbel, M., Kotarba, M. J. & Kosakowski, P., 2008. 1-D and 2-D numerical modelling of hydrocarbon generation, expulsion and migration processes in the Carbonlferous strata in the south-western part of the Lublin Trough. (In Pollsh, English summary). Geologia, Kwartalnik AGH, 32: 171-193.
50. Zdanowski, P., Baszkiewicz, B. & Gregosiewicz, Z., 2001. Analiza facjalna utworów najwyższej jury i kredy dolnej rejonu Zagorzyc. (In Polish, English summary). Przegląd Geologiczny, 49: 161-178.
51. Zubrzycka, M., Czerwińska, B., Nikiel-Tshabangu, B. & Zubrzycki, Z., 2009. New perspectives for hydrocarbon prospecting in the Sokołów-Pogwizdów region (Carpathian Foredeep) as show by reprocessing of 3D seismic data. (In Polish, English summary). Przegląd Geologiczny, 57: 988-995.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-33b2f5ab-3008-446e-bbad-70c91a1124e8