Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:3
  • preuzimanja u poslednjih 30 dana:1

Sadržaj

članak: 1 od 30  
Back povratak na rezultate
2021, vol. 76, br. 6, str. 747-755
Modelovanje geotermičke evolucije sedimentnih stena istočne Hercegovine na osnovu refleksije vitrinita
Univerzitet u Beogradu, Rudarsko-geološki fakultet

e-adresanikoleta.aleksic@rgf.bg.ac.rs
Projekat:
Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije (institucija: Univerzitet u Beogradu, Rudarsko-geološki fakultet) (MPNTR - 451-03-68/2020-14/200126)

Ključne reči: nafta; termička zrelost; geotermičko modelovanje; refleksija vitrinita; istočna Hercegovina
Sažetak
U radu su prikazani prvi rezultati modelovanja geotermičke evolucije sedimentnih stena istočne Hercegovine i maturacije organske supstance na osnovu refleksije vitrinita. Modelovanje konsedimentacione i geotermičke istorije izvršeno je uz pomoć softvera "SimpleMat" u kome je korišćen poznati kinetički model refleksije vitrinita - EASY %Ro. Usaglašavanjem rezultata izmerenih i proračunatih refleksija vitrinita došlo se do zaključka da je intenzitet erozije u istražnom području bio oko 900 m, a da se prvo generisanje nafte u ovom području moglo odigrati pre oko 100 miliona godina. Prema utvrđenom modelu maturacije, koji uključuje dodatnu debljinu i kasniju eroziju paleogena, sedimenti gornjeg trijasa dostižu stepen zrelosti koji odgovara refleksiji vitrinita od 0,70 do 1,1% Rr, sedimenti donje jure od 0,62 do 0,70% Rr, a sedimenti gornje krede od 0,40 do 0,60% Rr što je u skladu sa izmerenim vrednostima refleksije vitirinita u 23 uzorka. Budući da se u konkretnom slučaju može uzeti da početku katageneze odgovaraju refleksije vitrinita od 0,50% Rr, svi analizirani mezozojski uzorci nalaze se na katagenetskom stadijumu, tj. u "naftnom prozoru", a kenozojski u dijagenezi.
Reference
Aleksić, N., Kostić, A., Radonjić, M. (2021) Composition of organic matter and thermal maturity of Mesozoic and Cenozoic sedimentary rocks in East Herzegovina (External Dinarides, Bosnia and Herzegovina). Annales Societatis Geologorum Poloniae, 2021-2021
Burnham, A.K., Sweeney, J.J. (1989) A chemical kinetic model of vitrinite maturation and reflectance. Geochimica et Cosmochimica Acta, 53(10): 2649-2657
Dimitrijević, M.D. (1995) Geologija Jugoslavije. Beograd: Geoinstitut, str. 220-226
Ercegovac, M., Kostić, A., Karg, H., Welte, D.H., Littke, R. (2003) Temperature and burial history modelling of the Drmno and Markovac depressions, SE Pannonian Basin, Serbia. Journal of Petroleum Geology, Vol.26 (1), January 2003, pp 5-27
Ercegovac, M., Kostić, A., Stojić, A. (1998) Simplemat: Software for the prediction of petroleum generation and fast economic evaluation of unexplored basins. u: International Symposium on Application of Mathematical Methods and Computers in Mining, Geology and Metallurgy (7th), October 28-30, Sofia, Proceedings 2-16, 325-330
Ercegovac, M., Kostić, A. (1996) The kerogen maturity of the Neogene sediments in the Drmno depression (Kostolac, Serbia). Journal of the Serbian Chemical Society, 61(11), 1063-1069
Hermanrud, C. (1993) Basin modelling techniques: An overview. u: Dore A.G., et al. [ur.] Basin modelling: Advances and applications, Amsterdam: Elsevier, NPF Spec. Publ. 3, pp. 1-34
Kostić, A., Ercegovac, M., Stojić, A. (1998) Intergralni model konsedimentacione istorije i generiranja ugljovodonika u Smederevskoj depresiji - primena programa SimpleMat. u: 13. Kongres geologa Jugoslavije, Mineralne sirovine, Herceg Novi, knjiga IV, str. 349-365
Kostić, A. (2010) Termička evolucija organske supstance i modelovanje geneze nafte i gasa u Panonskom basenu (Srbija). Beograd: Univerzitet Rudarsko-geološki fakultet, 150 str
Miljuš, P. (1971) Geološko-tektonska građa i povjest razvoja vanjskih Dinarida i Jadrana. University of Belgrade-Faculty of Mining and Geology, Unpubl. PhD Thesis, pp. 255
Miošić, N., Samardžić, N., Hrvatović, H. (2010) The current status of geothermal energy use and development in Bosnia and Herzegovina. u: World Geothermal Congress, Bali, Indonesia, Proceedings, pp. 1
Natević, Lj., Petrović, V. (1970) Osnovna geološka karta SFRJ 1:100000 - tumač za list Trebinje K 34-37. Sarajevo: Institut za geološka istraživanja, 46 str
Peters, K.E., Cassa, M.R. (1994) Applied Source Rock Geochemistry. u: Magoon L.B., Dow W.G. [ur.] The Petroleum System: From Source to Trap, AAPG Memoir: 60: 93-120
Peters, K.E., Walters, C.C., Moldowan, J.M. (2005) The Biomarker Guide. Cambridge University Press, 2nd Ed. 1155-1155
Petsch, S.T., Berner, R.A., Eglinton, T.I. (2000) A field study of the chemical weathering of ancient sedimentary organic matter. Organic Geochemistry, 31(5): 475-487
Poelchau, H.S., Baker, D.R., Hantschel, T.H., Horsfield, B.B., Wygrala, B. (1997) Basin Simulation and the Design of the Conceptual Basin Model. u: Petroleum and Basin Evolution, Berlin-Heidelberg: Springer, 3-70
Schmid, S.M., Bernoulli, D., Fügenschuh, B., Matenco, L., Schefer, S., Schuster, R., Tischler, M., Ustaszewski, K. (2008) The Alpine-Carpathian-Dinaridic orogenic system: Correlation and evolution of tectonic units. Swiss Journal of Geosciences, 101(1): 139-183
Schmid, S.M., Fügenschuh, B., Kounov, A., Maţenco, L., Nievergelt, P., Oberhänsli, R., Pleuger, J., Schefer, S., Schuster, R., Tomljenović, B., Ustaszewski, K., van Hinsbergen, D.J.J. (2020) Tectonic units of the Alpine collision zone between Eastern Alps and western Turkey. Gondwana Research, 78: 308-374
Sweeney, J.J., Burnham, A.K. (1990) Evaluation of a simple model of vitrinite reflectance based on chemical kinetics. AAPG Bulletin, t4, 10, 1559-1570
Taylot, G.H., Teichmuller, M., Davis, A., Diessel, C.F.K., Littke, R., Robert, P. (1998) Organic petrology. Berlin: Gebrüder Bortraeger, 704 pp
Tissot, B.P., Welte, D.H. (1978) Petroleum Formation and Occurrence: A New Approach to Oil and Gas Exploration. Berlin: Springer Verlag, 538 p
van Gijzel, P. (1981) Characterization and identification of kerogen and bitumen and determination of thermal maturation by means of qualitative and quantitative microscopical techniques. u: How to Assess Maturation and Paleotemperature, Society of Economic Paleontologists and Mineralogists, Short Note, 7: 159-216
Vlahović, I., Mandić, O., Mrinjek, E., Bergant, S., Ćosović, V., de Leeuw, A., Enos, P., Hrvatović, H., Matičec, D., Mikša, G., Nemec, W., Pavelić, D., Penciger, V., Velić, I., Vranjković, A. (2012) Marine to continental depositional systems of Outer Dinarides foreland and intramontane basins (Eocene-Miocene, Croatia and Bosnia and Herzegovina). u: Field Trip Guide: IAS Meeting of Sedimentology (29th), Schladming, Austria, Journal of Alpine Geology 54, 405-470
Vujisić, T. (1975) Osnovna geološka karta SFRJ 1:100000 - tumač za list Nikšić K 34-38. Sarajevo: Institut za geološka istraživanja, 53 str
Waples, D.W. (1980) Time and temperature in petroleum exploration: Application of Lopatin's method to petroleum exploration. AAPG Bull, 64 (6), 916-927
Welte, D.H., Horsfield, B., Baker, D.R., eds. (1997) Petroleum and Basin evolution: Insights from Petroleum Geochemistry, Geology and Basin Modeling. Berlin-Heidelberg: Springer-Verlag, 535 pp
Wygrala, B.P. (1989) Integrated study of an oil field in the southern Po basin, Northern Italy. Berichte der Kernforschungsanlage Jülich, Diss, no 2313, pp. 1-217
Yukler, M. (1979) Sensitivity analysis of groundwater flow system and an application to a real case. u: Gill D., Merriam D.F. [ur.] Geomathematical and Petrophysical Studies in Sedimentology, Oxford: Pergamon Press, 33-49
 

O članku

jezik rada: srpski
vrsta rada: izvorni naučni članak
DOI: 10.5937/tehnika2106747A
primljen: 01.12.2021.
prihvaćen: 03.12.2021.
objavljen u SCIndeksu: 02.02.2022.
Creative Commons License 4.0