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Burial and thermal history of the Lower Palaeozoic petroleum source rocks at the SW margin of the East European Craton (Poland)

Botor Dariusz, Golonka Jan, Anczkiewicz Anneta A., Dunkl István, Papiernik Bartosz, Zając Justyna, Guzy Piotr

Annales Societatis Geologorum Poloniae

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2019

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Vol. 89, No. 2

121--152

EN

Thermal maturity modelling was carried out in over sixty wells along the SW margin of the East European Craton (EEC). The burial and thermal history modelling of the EEC, using thermochronological data, allowed the construction of burial history maps showing its geological development in the Phanerozoic. These results have proved that the Ordovician and Silurian source rocks occurring at the SW margin of the EEC reached a maximum palaeotemperature in the Palaeozoic, mainly during Devonian-Carboniferous time and at the latest during the Silurian in the most westerly part of this margin, along the Teisseyre-Tornquist Zone. In Mesozoic and Cainozoic time, the Ordovician and Silurian strata generally were subjected to cooling or to very minor heating, certainly below the Variscan level. The maximum burial and maximum temperature of the Ediacaran-Lower Palaeozoic strata were reached during the Early Carboniferous in the Baltic Basin and during the Late Carboniferous in the Lublin area, and even in the Early Permian in the SE corner of the Lublin Basin. Thus, the main period of maturation of organic matter and hydrocarbon generation in the Ordovician and Silurian source rocks was in the Late Palaeozoic (mainly Devonian-Carboniferous) and in the westernmost zone along the Teisseyre-Tornquist line at the end of the Silurian.

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Stratigraphic distribution of hydrocarbon accumulations and charging history of reservoirs based on thermal evolution of petroleum source rocks within the southern border area of the Dnieper-Donets Basin

Karpenko I.

Przegląd Geologiczny

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2017

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Vol. 65, nr 8

516--525

PL

Kompleksowe badania systemu naftowego dostarczają prognoz i danych wejściowych do oceny ryzyka w celu ewaluacji nierozpoznanych wierceniami złóż w basenie dnieprowsko-donieckim (BDD), związanych ze strukturami solnymi lub występujących na znacznych głębokościach (5-7 km). Badania systemu naftowego dla zrozumienia mechanizmu i historii napełniania pułapek oraz geochronologii zdarzeń (czynnik czasu) wymagało zintegrowanych badań elementów systemu naftowego: występowania złóż ropy i gazu oraz ich wstępnych zasobów, rozprzestrzenienia skał macierzystych, ich właściwości oraz dojrzałości termicznej. Jednowymiarowe modelowanie historii pogrzebania dla otworów wiertniczych z BDD, skorelowane z danymi na temat refleksyjności witrynitu, dało informacje na temat rozkładu strumienia cieplnego w czasie jego ewolucji. Dwuwymiarowe modele systemu naftowego pozwoliły poznać wiek procesów generowania węglowodorów, typy migracji i historię napełniania znanych pułapek, jak również dostarczyły prognoz na temat złóż nierozpoznanych wierceniami. Generacja węglowodorów z każdego źródła następowała w krótkich okresach czasu z powodu szybkiego tempa pogrążania. Możliwość zachowania się złóż była zależna od wzrostu wysadów oraz migracji struktur solnych. Głębokie i bardzo głębokie pułapki w przyosiowej części basenu, które nie zostały naruszone wskutek wzrastających wysadów solnych w permie, są wypełnione złożami gazu po dzień dzisiejszy. Natomiast pułapki związane z wysadami solnymi w obrębie przyosiowych stref basenu były wypełniane węglowodorami tylko w osadach nie starszych niż śrokowokarbońskie, ponieważ starsze skały macierzyste wyczerpały już swój potencjał węglowodorowy do tego czasu.

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Hydrocarbon generation/expulsion modelling of the lower Paleozoic potential source rocks in the Gryfice and Kolobrzeg blocks (NW Poland)

Wróbel M., Kosakowski P., Poprawa P.

Geological Quarterly

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2010

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Vol. 54, No 2

183-196

EN

The lower Paleozoic source rocks in the offshore part of the Gryfice and Kolobrzeg blocks (NW Poland) were studied through geochemical data and numerical modelling. The geochemical study revealed a presence of effective source rocks in Caradocian strata, but with low hydrocarbon potential. The remaining lower Paleozoic source rock horizons were not documented by core samples. The timing of hydrocarbon generation and expulsion was modelled for the K1-1/86 and L2-1/87 boreholes located in the Gryfice and Kolobrzeg blocks, respectively. 1-D and 2-D modelling indicated that in the Kolobrzeg Block the onset of petroleum generation occurred at the end of the Silurian and the beginning of the Devonian. Source rocks in the Gryfice Block reached the early stage of oil generation at the beginning of the Permian and generation processes were completed by the end of the Triassic. Migration of hydrocarbons from source rocks began in the Carboniferous in both the Gryfice and Kolobrzeg blocks and lasted to the end of the Mesozoic. During hydrocarbon migration, an intensive dispersion process was observed, caused by leaking along the fault planes. The modelling revealed that hydrocarbons may have accumulated in Devonian reservoirs. The lack of any discovered accumulations could be the result of hydrocarbon dispersion caused by tectonic deformation and intense vertical fault block movements.

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Burial and thermal history of the Polish part of the Baltic region

Wróbel M., Kosakowski P., Poprawa P.

Geological Quarterly

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2010

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Vol. 54, No 2

131-142

EN

The burial history and thermal evolution of the western part of the Baltic region was reconstructed by means of 1-D modelling for eight boreholes penetrating the lower Paleozoic succession. The Neoproterozoic rifting presumably caused elevation of heat flow, while Cambrian to Mid Ordovician post-rift thermal sag of the Baltica passive margin led to systematic decrease of heat flow with time. Development of the Late Ordovician to Silurian flexural foredeep of the Caledonide collision zone was associated with intensive subsidence, a high rate of sediment deposition and rapid burial of the Upper Cambrian and/or Tremadocian, Upper Ordovician and lower Silurian source rocks, presumably sufficient for the early stage of oil generation. After post-Caledonian Early Devonian uplift, the western Baltic region was subject to Early Devonian to early Carboniferous subsidence and deposition, leading to further burial of the source rocks. Together with elevated heat flow, characteristic of the Variscan broad foreland, this caused further source rocks maturation and hydrocarbon generation. Late- to post-Variscan uplift and erosion (late Carboniferous to late Permian) resulted in complete removal of the Middle Devonian to lower Carboniferous strata and development of the major regional unconformity. During late Permian to Cretaceous time the western part of the Baltic region constituted an eastern flank of the Polish Trough, with the main phases of subsidence and burial during late Permian-Early Triassic time, related to rifting in the Polish Trough, and during Late Cretaceous time, related to the compressional regime. Maturity profiles in boreholes from the vicinity of the studied boreholes indicate the presence of a late Mesozoic (Late Cretaceous?) positive thermal event, causing further maturation of the source rock.