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The paper presents an evaluation of methane production from coal seams. The Warszowice-Pawłowice Północ deposit was selected for numerical modelling of methane production. The numerical model was made for a fragment of this deposit of about 2 km2. The numerical model was constructed for 6 seams. Three deposits were selected for simulation of methane production. Three horizontal boreholes were designed within the model area, referring to the existing Suszec19 borehole. A number of simulations related to methane production from the selected deposits were performed. They included different variants of the number of boreholes and also took into account the z-pinnate method. The analyses proved that the most advantageous is the production of 3 directional boreholes simultaneously with the z-pinnate method. For this variant the degree of methane production was 21.9% of the estimated resources.
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Tom
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272--285
Opis fizyczny
Bibliogr. 28 poz.
Twórcy
autor
- Central Mining Institute, Plac Gwarków 1, 40-166, Katowice, Poland
autor
- Central Mining Institute, Plac Gwarków 1, 40-166, Katowice, Poland
autor
- Central Mining Institute, Plac Gwarków 1, 40-166, Katowice, Poland
Bibliografia
- [1] Słoczyński T, Drozd A. Metan z pokładów węgla (CBM) - doświadczenia światowe i perspektywy rozwoju w Polsce. 2017.
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- [3] Chećko J, Urych T, Magdziarczyk M, Smoliński A. Resource assessment and numerical modeling of CBM extraction in the upper Silesian Coal Basin, Poland. Energies 2020;13(9): 2153. https://doi.org/10.3390/en13092153.
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- [5] Tao Shu, Pan Zhejun, Tang Shuling. Shida Chen Current status and geological conditions for the applicability of CBM drilling technologies in China. Int J Coal Geol 2019;202: 95e108.
- [6] Yao Yanbin& Liu, Tang Dameng, Tang Dazhen, Shuheng&Che Yao, Huang Wenhui. Preliminary evaluation of the coalbed methane production potential and its geological controls in the Weibei Coalfield, Southeastern Ordos Basin, China. Int J Coal Geol 2009;78:1-15. https://doi.org/10.1016/j.coal.2008.09.011.
- [7] Wojtacha-Rychter K, Howaniec N, Smoliński A. The effect of coal grain size on the sorption of hydrocarbons from gas mixtures. Int J Energy Res 2019;43:3496-506.
- [8] Ceglarska-Stefańska G, Nodeński A, Hołda S. Badania układu węgiel-gaz w aspekcie pozyskania metanui sekwestracji CO2. Gos Sur Min 2007;23:51-9.
- [9] Wojtacha-Rychter K, Smoliński A. The interactions between coal and multi-component gas mixtures in the process of coal self-heating at diferent various temperatures ranges: an experimental study. Fuel 2018;213:150-7.
- [10] Aminian K. Evaluation of coalbed methane reservoirs. Petroleum & Natural Gas Engineering Department, West Virginia University; 2009.
- [11] Mazzotti M, Pini R, Storti G. Enhanced coalbed methane recovery. J Supercrit Fluids 2009;47(3):619-27.
- [12] Liu Y, Wang F, Tang H, Liang S. Well type and pattern optimization method based on fine numerical simulation in coal-bed methane reservoir. Environ Earth Sci 2015;73(10): 5877-90.
- [13] Zhang M, Yang Y, Xia Z, Cui Z, Ren B, Zhang W, et al. Best practices in static modelling of a coalbed methane field: an example from the bowen basin in Australia. Society of Petroleum Engineers; 2014. https://doi.org/10.2118/171416-MS.
- [14] Zhou F, Yao G, Tyson S. Impact of geological modeling processes on spatial coal bed methane resource estimation. Int J Coal Geol 2015;146(146):14-27.
- [15] Shi JQ, Durcan S, Sinka IC. Key parameters controlling coalbed methane cavity well performance. Int J Coal Geol 2002;49:19-31.
- [16] Sinayuc C, Shi JQ, Imrie CE, Syed SA, Korre A, Durucan S. Implementation of horizontal well CBM/ECBM technology and the assessment of effective CO2 storage capacity in a Scottish coalfield. Energy Proc 2011;4:2150-6.
- [17] Galas C, Savenko V, Kieke DE. Simulation study of methane and carbon dioxide migration and Leakage during normal and enhanced field operations to recover coal bed methane from coal seams. In: Eide LI, editor. Carbon dioxide capture for storage in deep geologic formations, vol. 3. UK: CPL Press; 2009. 2009.
- [18] Anggara F, Sasaki K, Amijaya H, Sugai Y, Setijadji LD. CO2 injection in coal seams, an option for geological CO2 storage and enhanced coal bed methane recovery (ECBM). In: Proceedings, Indonesian petroleum association. Thirty-Fourth Annual Convention & Exhibition; May 2010.
- [19] Jureczka J, Chećko J, Krieger W, Kwarciński J, Urych T. Prospects for geological storage of CO2 with enhanced coal bed methane recovery in the Upper Silesian Coal Basin. Biul Panstwowego Inst Geol (1989) 2012;448:117-31.
- [20] Chećko J, Urych T, Magdziarczyk M, Smoliński A. Research on the processes of injecting CO2 into coal seams with CH4 recovery using horizontal wells. Energies 2020;(13):416.
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- [25] Szuflicki M, Malon A, Tymiński M. (red.): bilans zasobów złóż kopalin w Polsce wg stanu na 31.12.2019 r. Praca zbiorowa PSG PIG - PIB. Warszawa: PGI-NRI; 2020. wydawca PIG - PIB, ISSN: 2299-4459. Proven reserves of mineable deposits in Poland as of 31 Dec 2019.
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Bibliografia
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