Potential geological structures for underground CO2 storage in Mesozoic deposits of the Polish Lowlands

Tarkowski, R.; Marek, S.; Dziewińska, L.; Wdowin, M.

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Tytuł artykułu

Potential geological structures for underground CO2 storage in Mesozoic deposits of the Polish Lowlands

Autorzy

Tarkowski R. , Marek S. , Dziewińska L. , Wdowin M.

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Słowa kluczowe

CO2 storage Mesozoic aquifers tectonic structures major emitters in Poland

Wydawca

Komitet Termodynamiki i Spalania PAN

Czasopismo

Archivum Combustionis

Rocznik

2012

Tom

Vol. 32 nr 1-2

Strony

63--74

Opis fizyczny

Bibliogr. 42 poz., rys., tab.

Twórcy

autor

Tarkowski R.

tarkowski@min-pan.krakow.pl

Mineral and Energy Economy Research Institute of the PolishAcademy of Sciences Wybickiego 7, 31-261 Krakow, Poland; telephone: +48 12 632 33 00 ext. 136; fax: + 48 12 632 35 24;

autor

Marek S.

Mineral and Energy Economy Research Institute of the PolishAcademy of Sciences Wybickiego 7, 31-261 Krakow, Poland; telephone: +48 12 632 33 00 ext. 136; fax: + 48 12 632 35 24;

autor

Dziewińska L.

Mineral and Energy Economy Research Institute of the PolishAcademy of Sciences Wybickiego 7, 31-261 Krakow, Poland; telephone: +48 12 632 33 00 ext. 136; fax: + 48 12 632 35 24;

autor

Wdowin M.

wdowin@min-pan.krakow.pl

Mineral and Energy Economy Research Institute of the PolishAcademy of Sciences Wybickiego 7, 31-261 Krakow, Poland; telephone: +48 12 632 33 00 ext. 136; fax: + 48 12 632 35 24;

Bibliografia

[1] Directive 2009/31/WE of the European Parliament and Council of 23 April 2009 in the case of geological carbon dioxide storage and changing directive of the Council 85/337/EWG, Euratom, directive of the European Parliament and Council 2000/60/WE, 2001/80/WE, 2004/35/WE, 2006/12/WE, 2008/1/WE and regulation (WE) No 1013/2006.
[2] Bentham, M., Kirby, G.,CO2 Storage in Saline Aquifers. Oil and Gas Science and Technology, Rev. IFP. 2005, 60 (3), 559-567.
[3] Förster, A., Norden, B., Zinck-Jørgensen, K., Frykman, P., Kulenkampff, J., Spangenberg, E., Erzinger, J., Zimmer, M., Kopp, J., Borm, G., Juhlin, C., Cosma, C.-G., Hurter, S.,Baseline characterisation of the CO2SINK geological storage site at Ketzin, Germany.Envi. "Geosciences",2006, 13 (3), pp. 145-161.
[4] Bradshaw, J., Bachu, S., Bonijoly, D., Burruss, R., Holloway, S., Christensen, N.P., Mathiassen, O.M.,CO2 storage capacity estimation.Issues and development of standards. "Int. J. Green. Gas Control", 2007, 1 (1), pp. 62-68.
[5] GeoCapacity Final Report (2009). Vangklide-Pedersen T. (red.), http://www.geocapacity.eu – July 2009.
[6] Grataloup, S., Bonijoly, D., Brosse, E., Dreux, R., Garcia, D., Hasanov, V., Lescanne, M., Renoux, P., Thorval, A.,A site selection methodology for CO2 underground storage in deep saline aquifers: case of the ParisBasin,"Energ. Proced.",2009,1 (1), pp. 2929-2936.
[7] Hladik, V., Kolejka, V., Lojka, R., Fott, P., Vacha, D.,CO2 emissions and geological storage possibilities in the Czech Republic, "Slovak Geol. Magazine", 2009, pp. 29-41.
[8] Koukouzas, N., Ziogou, F., Gemeni, V.,Preliminary assessement of CO2 geological storage opportunities in Greece,"Int.l J. of Green. Gas Control", 2009, 3 (4), pp. 502-513.
[9] Ramirez, A., Hagedoorn, S., Kramers, L., Wildenborg, T.,Hendriks, Ch.,Screening CO2 storage options in the Netherlands, "Energ. Proced.", 2009, 1 (1), pp. 2801-2808.
[10] Vangkilde-Pedersen, T., Anthonsen, K. L., Smith, N., Kirk, K., Neelec, F., van der Meer, B., Le Gallo, Y., Bossie-Codreanu, D., Wójcicki, A., Le Nidre, Y.-M., Hendriks, Ch., Dalhoff, F., Christensen N. P.,Assessing European capacity for geological storage of carbon dioxide – the EU GeoCapacity project, "Energ. Proced.", 2009, 1 (1), pp. 2663-2670.
[11] Tarkowski, R. (ed.),Potential geological structures to CO2 storage in the Mesozoic Polish Lowlands (characteristics and ranking),"IGSMiE PAN. Studia. Rozprawy. Monografie", Kraków, 2010, 164, p. 138 (in pol.).
[12] Tarkowski, R,Industrial sources of CO2 emissions in Poland in the light of underground storage possibilities, "C. R. Geoscience", 2005, 337, pp. 799-805.
[13] Wójcicki, A.,CO2 geological storage potential of deep-seated unexploited coal seams n the Upper Silesian Coal Basin,"Prz. Geol.", 2009, 2, pp. 138-143, (in pol.).
[14] Tarkowski, R. (ed.), Nodzeński, A., Solecki, T., Stopa, J., Uliasz-Misiak, B., Possibilities of underground storage of carbon dioxide in deep geological structures (oil and gas reservoirs, aquifers) in Poland, Kraków, Wyd. IGSMiE PAN, 2005, (in pol.).
[15] Tarkowski, R., Uliasz-Misiak, B., Possibilities of CO2 Sequestration by Storage in Geological Media of Major Deep Aquifers in Poland,"Chem. Eng. Res. and Design", 2006, 84, A9 Carbon Capture and Storage, pp. 776-780.
[16] Uliasz-Misiak, B.,Polish hydrocarbon deposits usable for underground CO2 storage,"Gosp. Sur. Min.", 2007, 24 (4), pp. 111-120.
[17] Uliasz-Misiak, B.,CO2 storage capacity in selected Mesozoic aquifers and hydrocarbon deposits of Poland, "IGSMiE PAN. Studia. Rozprawy, Monografie", Kraków, 2008, no 142,114 p. (in pol.).
[18] http://składowanie pgi.gov.pl/co2atlas.
[19] Chadwick, A. (ed.), Arts, R., Bernstone, C., May, F., Thibeau, S., Zweigel, P., Best practice for the storage of CO2 in saline aquifers. Observations and guidelines from the SACS and CO2STORE projects, 2006, http://www.ngu.no/FileArchive/91/CO2STORE_BPM_final_small.pdf (September 2006).
[20] Tarkowski, R.,CO2 storage capacity of geological structures located within Polish Lowlands' Mesozoic formations,"Gosp. Sur. Min.", 2008, 24 (4/1), pp. 101-112.
[21] Willscher, B., May, F., Tarkowski, R., Uliasz-Misiak, B., Wójcicki, A., EU GeoCapacity - Towards a Europe-wide GIS of CO2 Emittants and Storage Sites (Das EU-Projekt GeoCapacity - ein europaweites GIS mit CO2-Emittenden und Speichermöglichkeiten), "Z. Geol. Wiss.", 2008, 36 (6), pp. 303-320.
[22] Tarkowski, R., Marek, S., Uliasz-Misiak, B., Preliminary geological analysis of structures to store CO2 within the Bełchatów area, "Gosp.a Sur. Min.", 2009, 25 (2), pp. 37-45,(in pol.).
[23] Marek, S. (ed.),Geological structure of the eastern part of the Mogilno – Łódź trough (Gopło-Ponętów- Pabianice zone), "Pr. Inst. Geol.", 1977, 80, pp. 1-165, (in pol.).
[24] Jaskowiak-Schoeneichowa, M. (ed.),The Geological structure of the Szczecin trough and Gorzów Block, "Pr. Inst. Geol.", 1979, 96, pp. 5-178, (in pol.).
[25] Marek S. (ed.),The geological structure of the Warsaw (Płock) trough and its basement,"Pr. Inst. Geol.", 1983, 103, pp. 1-278, (in pol.).
[26] Dadlez, R. Epicontinental bassins in Poland: Devonian to Cretaceous relationship between the cristaline basement and sedimentary infill,"Geological Quarterly", 1997, 41 (04), pp. 419-432.
[27] Marek, S., Pajchlowa, M. (ed.), The epicontinental permian and mezosoic in Poland, "Pr. Państw. Inst. Geol.", 1997, 153, pp. 1-452, (in pol.).
[28] Bojarski, L. (ed.),Hydrochemical and hydrodynamic atlas of the paleozoic and mesozoic and ascensivesalinity of ground waters in Polish lowlands (scale 1:1 000 000), Warszawa Państw. Inst. Geol., 1996, (in pol.).
[29] Dadlez, R., Marek, S., Pokorski, J. (ed.), Paleogeographical atlas of the epicontinental permian and mesozoic in Poland (scale 1:2 500 000),Warszawa, Państw. Inst. Geol., 1998, (in pol.).
[30] Znosko, J. (ed.),Tectonic Atlas of Poland, 1:500 000,Warszawa, Państw. Inst. Geol., 1998, (in pol.).
[31] Dadlez, R., Marek, S., Pokorski, J. (ed.), Geological map of Poland without cainozoic deposits (scale 1:1 000 000),Warszawa, Państw. Inst. Geol., 2000, (in pol.).
[32] Dadlez, R.,Mid-Polish Trough – Geological cross-sections,Warszawa, Państw. Inst. Geol., 2001, (in pol.).
[33] Dziewińska, L., Marek, S., Jóźwiak, W.,Seismic-geological cross-sections across the Kujawy and Gielniew swell (scale 1:100 000),"Biul. Inst. Geol.",2001, 398, pp. 5-24, (in pol.).
[34] Wagner, R. (ed.),Tablica stratygraficzna Polski. Polska pozakarpacka, Warszawa, Wyd. Geol., 2008, (in pol.).
[35] Krzywiec, P.,On mechanizms of the Mid-Polish Trough inversion– results of seismic data interpretation, "Biul. Państw. Inst. Geol.",2000, 393, pp. 135-166, (in pol.).
[36] Krzywiec, P.,Geometry and evolution of selected salt structures in the Polish Lowlands in the light of seismic data,"Przegl. Geol.",2009, 57 (9), pp. 812-818, (in pol.).
[37] Świdrowska, J., Hakenberg, M., Poluktowic, B., Seghedi, A., Visniakov, I.,Evolution of the Mesozoic basins on the South Western edge of the East European Craton (Poland, Ukraina, Moldova, Romania), "Stud. Geol. Pol.",2008, 130, pp. 3-130.
[38] Raczyńska, A. (ed.),Geological structure of the Pomeranian swell and its basement,"Pr. Inst. Geol.", 1987, 119, pp. 1-269, (in pol.).
[39] Maliszewska, A. (ed.),Diagenesis of the upper permian and mezosoic deposits of the Kujawy region (central Poland), "Pr. Państw. Inst. Geol.", 1999, 167, pp. 1-154, (in pol.).
[40] Pieńkowski, G.,The epicontinental Lower Jurassic of Poland, "Polish Geological Institute Special Papers", 2004, 12, pp. 1-154.
[41] Raczyńska, A.,Stratygrafia i rozwój facjalny młodszej kredy dolnej na Niżu Polskim, "Pr. Inst. Geol."1979, 89, 79.
[42] Leszczyński, K.,Ewolucja geologiczna strefy Ponętów – Wartkowice w kredzie, "Pr. Państw. Inst. Geol.",2002, 176, pp. 5-89.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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