1 Polish Geological Institute National Research Institute Upper Silesian Branch 2 Central Mining Institute Katowice Janusz Jureczka 1, Włodzimierz Krieger 1, Jarosław Chećko 2 Preliminary characterization of perspective CO 2 storage with enhanced coal bed methane recovery in the Upper Silesian Coal Basin (Poland)
Neubrandenburg BERLIN Most DRESDEN Jelenia_Gora Decín Swidnica Walbrzych KIELCE Victoria Teplice USTI_NAD_LABEM Czestochowa Czestochowa II OPOLE Zawiercie Zdzieszowice Tarnowskie_Gory Kedzierzyn-Kozle Bytom Jadwiga Bytom Piekary_Slaskie Przyjazn Kladno Gliwice Zabrze Dabrowa_Gornicza HRADEC_KRALOVE Ruda_Slaska Chorzow Siemianowice_Sląskie Bedzin IV Swietochlowice Sosnowiec KATOWICE Myslowice PRAHA Jaworzno Debiensko Trzebinia_EC PARDUBICE RaciborzRybnik Tychy Krakow Radlin Zory KRAKOW Opava Jastrzebie-Zdroj Czechowice-Dziedzice OSTRAVA Karvina 0 25,000 50,000 75,000 100,000 125,000 150,000 175,000 200,000 Havirov Bielsko-Biala Miasta, tys. Cities, thous. 50 to 99 100 to 249 250 to 999 1000 to 3500 Cottbus VII SZCZECIN Frankfurt(Oder) Görlitz MOŻLIWOŚCI GEOLOGICZNEJ SEKWESTRACJI CO2 W POLSCE POSSIBILITIES ON CO2 GEOLOGICAL SEQUESTRATION IN POLAND Stargard_Szczecinski GORZOW_wLKP. ZIELONA_GORA JIHLAVA Glogów Lubin Legnica KM Koszalin BRNO Leszno Pila Gniezno POZNAN VI WROCLAW OLOMOUC VIII ZLIN BYDGOSZCZ Kalisz Inowroclaw Konin Ostrow_Wielkopolski Gdynia GDANSK Gdansk Frydek-Mistek TORUN ZILINA Tczew Grudziadz I Wloclawek Elblag Plock Zgierz LODZ Pabianice Plock Piotrkow_Trybunalski Belchatow KALININGRAD OLSZTYN III Legionowo WARSZAWA Pruszkow Tomaszow_Mazowiecki V Radom Starachowice Tarnow Nowy_Sacz Ostroleka Lomza Ostrowiec_Swietokrzyski Mielec Elk Siedlce TarnobrzegStalowa_Wola RZESZOW LUBLIN Suwalki Przemysl BIALYSTOK Biala_Podlaska Zamosc Chelm KAUNAS BREST ALYTUS HRODNA Drogobych Stryj Novovolynsk LVIV Kovel Chervonograd Area II USCB Polish Geological Institute National Research Institute Upper Silesian Branch in Sosnowiec Central Mining Institute in Katowice AGH University of Science And Technology in Krakow CESKE_BUDEJOVICE Martin Poprad PRESOV Kalush Obszary chronione (NATURA 2000, parki narodowe) Protected areas (NATURA 2000, national parks) TRENCIN Prievidza BANSKA_BYSTRICA LEGENDA LEGEND Elektrownie zawodowe, emisja w kt (KPAU) Power plants, emission in kt Elektrociepłownie i ciepłownie, emisja w kt (KPAU) 100 to 1000 CHP and heating plants, emission in kt 1000 to 5000 100 to 1000 5000 to 10000 1000 to 5000 10000 to 33000 Przemysł wytwórczy, emisja w kt (KPAU) Rafinerie i koksownie, Manufacturing industries, emisja w kt (KPAU) emission in kt Conversion plants 100 to 1000 emission in kt 100 to 1000 1000 to 5000 1000 to 6000 5000 to 10000 Zasięg dolnej kredy (W. Górecki, 1995) Lower Cretaceous extent Zasięg dolnej jury (W. Górecki, 1995) Lower Jurassic extent Zasięg dolnego triasu (pstrego piaskowca) Lower Triassic (Bunter Ss.) extent (R. Dadlez, S. Marek, J. Pokorski, 1998) Planowane lokalizacje geotermalne Planned geothermal localities Instalacje i uzdrowiska geotermalne Geothermal installations and spas Potencjal magazynowania struktur hydrogeologicznych (Cr1, J1, T1), Mt Storage capacity of aquifer structures (Cr1, J1, T1 - R. Tarkowski, 2005), Mt 100 to 500 500 to 1100 Gazociągi (P. Karnkowski, 1993; www.rynekgazu.pl) Gas pipelines Terminale gazowe (st. kompresorów, przesyłowe) Gas pipelines (compressor & transfer stations) Ropociąg "Przyjaźń" Druzhba oil pipeline Ważniejsze podziemne magazyny gazu i paliw Major underground gas and fuel storages Wybrane zloża gazu i ropy (P. Karnkowski, 1993; Infogeoskarb) Selected gas and oil fields Potencjal magazynowania struktur naftowych (gaz i ropa), Mt Storage capacity of hydrocarbon structures, Mt 0.4 to 5 5 to 10 10 to 50 50 to 150 Obszary górnicze (w tym MPW) Mining areas (including CBM - Infogeoskarb) GZW (zasięg karbonu produktywnego) Silesian Coal Basin (Carboniferous range) Eksperyment Recopol/MoveCBM (ECBM) ECBM Recopol/MoveCBM experiment Zasoby MPW CBM fields (S. Przeniosło, 2005) 2 to 10 10 to 25 25 to 50 Zasięg Zapadliska Przedkarpackiego Carpathian Foredeep extent (P. Karnkowski, 1993) Front nasunięcia Karpat Carpathian front (P. Karnkowski, 1993) Zasięg czerwonego spągowca Rotliegend range (P. Karnkowski, 1993) Naturalne ekshalacje CO2 Natural CO2 seeps PBG Geophysical Exploration Ltd. in Warsaw source: skladowanie.pgi.gov.pl
Geological sketch map of the USCB 7490 km 2 5760 km 2 (Polish part)
Geological and mining exploration of USCB 5600 boreholes 2500 depth >= 500 metres 1200 depth >= 1000 metres outside coal fields 265 depth >= 500 metres 125 depth >= 1000 metres Z E N
USCB hard coal deposits 120 deposits 40 exploration fields (E) 46 active mines (A) 34 closed mines (C) C A E
Fundamental parameters of geological structures useful for Carbon Capture and Storage (CCS) top of the collector: at depth beneath 800 metres thickness of sealing deposits: > 50 metres (the best 100 m) thickness of collector (reservoir): 50 metres effective porosity: up 10% (the best around 20%) permeability: > 200 300 md mineralisation of subterranean waters: > 30 g/dm 3 capacity of the reservoir: at least 20 30 Mt USCB (active hard coal mines): beneath current and planned depth of exploitation: 1250/1300 metres the best outside of areas of the active hard coal mines
USCB localization of the study areas
USCB Location of the study areas
Central and southern region against a background of structural map of the base of the Mudstone Series
Central and southern region against a background of structural map of the base of the Upper Silesian Sandstone Series
Pawłowice Mizerów area structural map of the base of the Mudstone Series (coal seam 405) 1750 m 1150 m 900 m
Pawłowice Mizerów area structural map of the base of the Upper Silesian Sanstone Series (coal seam 510) 1900 m 1500 m 1150 m
Pawłowice Mizerów area Coal seam 405 coal-bed methane content 10 m 3 / t coal daf 4 m 3 /t coal daf 8 m 3 /t coal daf
Pawłowice Mizerów area Coal seam 510 coal-bed methane content 4 m 3 / t coal daf 6 m 3 / t coal daf 6 m 3 /t coal daf
Pawłowice Mizerów area Thickness of the coal seam 405 6 m 3 / t coal daf 2 m 3 /t coal daf 3 m 3 / t coal daf 5 m 3 / t coal daf
Pawłowice Mizerów area Thickness of the coal seam 510 8 m 8 m 10 m 8 m 0 m
Pawłowice Mizerów area Top of the methane content 4,5 m 3 /t coal daf 600 m 800 m 1100 m 900 m
Pawłowice Mizerów area Geological cross-section
Area II Pawłowice-Mizerów
Main parameters of Pawłowice-Mizerów area Number of block Average weighted of methane content [m 3 /t coal daf ] Average total thickness of the coal seams [m] Average weighted of density [Mg/m 3 ] Average weighted of ash content [-] Average weighted of moisture content [-] Surface [thousand m 2 ] Coal-bed methane resources [thousand m 3 ] Coefficient of coal-bed methane output Coefficient of completeness Coefficient of replacement coal-bed methane with CO 2 CO 2 density [Mg/m 3 ] Storage capacity [Mg] II/1 7.291 21.70 1.35 0.100 0.009 10 740 2 051 575 0.5 0.4 2 0.0019 1 559 197 II/2 6.197 19.90 1.39 0.126 0.008 8 631 1 285 593 0.5 0.4 2 0.0019 977 051 II/3 5.548 27.71 1.43 0.099 0.008 12 300 2 412 237 0.5 0.4 2 0.0019 1 833 300 II/4 4.856 32.47 1.41 0.128 0.008 19 520 3 753 994 0.5 0.4 2 0.0019 2 853 036 II/5 5.748 28.26 1.26 0.078 0.007 7 888 1 477544 0.5 0.4 2 0.0019 1 122 933 Total storage capacity of block II 8 345 517
Pawłowice-Mizerów models of spread of the coal seams 405 and 510 seam 405 seam 510
Pawłowice-Mizerów model of spread of coal seams 405 and 510
Pawłowice-Mizerów - lithology
Pawłowice-Mizerów methane-bearing capacity
This presentation has been work out as a part of national programme: Assessment of formations and structures for safe geological storage of CO 2 including their monitoring program Ordered: Ministry of the Environment Funded: National Fund for Environmental Protection and Water Management
Thank you for your attention!