Coalbed Methane CO2 Sequestration Project Mecsek Mts Hungary

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Coalbed Methane CO2 Sequestration Project Mecsek Mts Hungary ROTAQUA KFT UNIVERSITY OF MISKOLC Janos Foldessy University of Miskolc, Department of Geology and Mineral Resources Resources and Environment 2006 - Coal and China Freiberg, Germany, 30-31 March 2006.

Authors Istvan Lakatos Petroleum engineer Zoltan Nemedi-Varga Geologist Bela Fodor Mineral economist Janos Foldessy Geologist Tamas Csecsei Drilling

Carpathian Basin Mecsek

Geographical location

Exploration licence Licence valid 2004-2008/2009, prolongable until 2010 and 2011 Licence holder: Rotaqua KFT - 420 sq.km

Physical geography N PÉCS

Geology Tertiary cover Intrusives Hanging wall Footwall Coal

Geology 3D block N

Geological section

Structure

Coal mining history Largest hard coal resource of Hungary 1782 Mining starts 1960 Peak period - 4 M tonne/year 1990 Decline gradual closure of underground mines 2003 Last open pits close 2000 - Reclamation of the mines, dumps

Mining - coalfields

Coal resource Composition and quality of the Mecsek coal Total Mine district moisture % Pécs-István 1,96 shaft Pécs-Vasas 1,74 Komló-Béta shaft 3,29 KomlóKossuth shaft 3,08 Ash % Volatiles% Sulfur, combustible Caloric value KJ/kg % 26,89 27,75 22,73 27,96 2,77 2,46 22476 22384 33,66 33,64 2,32 21588 34,71 83,84 2,63 23569 Vitrinite-reflection data Coal resource: Shaft 986 M tonne indicated 1,600 M tonne indicated+inferred 3,300 M tonne resource background Pécs - István 17,5 23,9 Pécs-Vasas Petőfi 24,6 33,0 Komló 28,3 35,7 Béta Komló Zobák 29,5 35,2 Komló Kossuth 31,0 35,0 Volatile % R % o 1,4 1,6 1,0 1,3 0,9 1,1 0,8 1,0 0,9 1,0

Coal Mine Methane Coalbed Methane - History 1894 First gas outbursts at Pecs, methane explosions, accidents start 1957 Pre-mining methane drainage introduced 1975 Start of using the gas for heating, 38 km collecting pipeline built 1980 First hole to test methane (V15) 1991 Geol Survey estimate: 112 BCM gas in-place 1993-1994 Four holes, gas present, technological problems Hungarian-Canadian venture

Sorption characteristics of coal Langmuir parameters Pressure (Mpa) 2,46 4,01 Sample Pécs, Karolina open-pit Vasas open pit cc methane /g coal Dry with Moist As received Ash Free 18,26 19,32 23,16, 20,74 21,44 25,97 Ash Dry Free 24,89 27,08 Ash > 0,8 adsorption Free energy of the 0,6 0,4 0,2 Fk < 0,0 0 1 2 3 4 Equilibric pressure, MPa 5 6 Fa < > Coal/methane interface desorption 1,0 Unstable condition > Metastable equilibrium Internal structure of the coal Adsorbed methane, mol/kg 1,2 Internal structure of the coal coal - methane system 1,4 Stable equlibrium Fq Gas phase (pore space) > 7 Growing distance towards the edge of coal particle

Methane gas quality Methane : Carbon dioxide: Caloric value 95% 0.8% 36000 kj/kg GOB gas Gas trapped in abandoned stopes Estimated as 16 m3/t by tonned of extracted coal

Refined gas resource estimate 2005 In-place coal resource: tonne Sorbed and free gas: GOB gas: Total gas: Recovery coefficient Recoverable CBM gas: Recoverable GOB gas: Total recoverable gas: 3300 M 131,9 Bn m3 10,6 Bn m3 142,5 Bn m3 0,2 26,4 Bn m3 2,1 Bn m3 28,5 Bn m3

Lessons learnt from 1993-1994 exploration Low permeability coal High stress environment High geothermal gradient liquid CO2 does not work Increased permeability zones should be searched

New exploration concept 1993-1994 2006 Geological target Coal types High permeability zones Technology Rotary Wireline core drilling Hole orientation Vertical Inclined Sampling Chips Core in canister Hole stimulation Liquid CO2 - gasified Methanol

Geological guides to better permeability Folded structure tensional and compressional zones High permeability tensional zones Igneous intrusions increasing coal rank, higher gas yield, fracturation Impervious hanging wall sedimentary cover

Coal maturation vitrinite reflection High coal rank volatile release: Anticline zones Near Igneous contacts Structural enhancement: Anticline axis Pre-tertiary faults Mechanical enhancement: Gob zones

Volatile content Vitrinite reflection 0.8 0.9 1 1.1 1.2 150 175 200 225 250 275 300 325 350 375 400 0 150 175 200 225 250 275 300 325 350 375 400 10 20 30 40 0 150 175 200 225 250 275 300 325 350 375 400 Coal seams 1 Release of volatiles in igneous contact zones

Zones with favourable geology Fractured zone Anticline axis

Enhanced CBM CO2 injection Flue gas from Pécs Thermal Power Plant CO2 preferably adsorbs on coal desorbs methane N2 reduces CH4 partial pressure, provokes desorbtion CO2 sequestration produces ERU added value

The ten largest revorable gas resources of Hungary Algyő Hajdúszoboszló Pusztaföldvár Üllés Szank Szeghalom Nagykörű Mezősas Kisújszállás Lovászi Total 12,7 Bn m3 1,5 Bn m3 1,7 Bn m3 2,8 Bn m3 0,7 Bn m3 0,8 Bn m3 2,6 Bn m3 3,3 Bn m3 0,8 Bn m3 0,2 Bn m3 27,1 Bn m3

Mecsek Mountains