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Deformation properties of sedimentary rocks in the process of underground coal gasification

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article presents results of research into changes in deformation properties of rocks, under influence of temperature, during the process of underground coal gasification. Samples of carboniferous sedimentary rocks (claystones and sandstones), collected in different areas of Upper Silesian Coal Basin (GZW), were heated at the temperature of between 100 and 1000-1200°C, and then subjected to uniaxial compression tests to obtain a full stress-strain curves of the samples and determine values of residual strain and Poisson's ratio. To compare the obtained values of deformation parameters of rocks, tested in dry-air state and after heating in a given range of temperature, normalised values of residual strain and Poisson's ratio were determined. Based on them, coefficient of influence of temperature on tested deformation parameters was determined. The obtained values of the coefficient can be applied in mining practice to forecast deformability of gangue during underground coal gasification, when in the direct surrounding of a georeactor there are claystones or sandstones. The obtained results were analysed based on classification of uniaxial compression strength of GZW gangue, which formed the basis for dividing claystones and sandstones into very low, low, medium and high uniaxial compression strength rocks. Based on the conducted tests it was concluded that the influence of uniaxial compression strength on the value of residual strain, unlike the influence of grain size of sandstones, is unambiguous within the range of changes in the parameter. Among claystones changes in the value of Poisson's ratio depending on their initial strength were observed. Sandstones of different grain size either increased or decreased the value of Poisson's ratio in comparison with the value determined at room temperature in dry-air conditions.
Rocznik
Strony
144--156
Opis fizyczny
Bibliogr. 17 poz.
Twórcy
autor
  • Central Mining Institute, Department of Rockburst and Rock Mechanics, Poland
autor
  • Central Mining Institute, Interdisciplinary Doctoral Studies, Clean Coal Technologies Centre, Poland
Bibliografia
  • 1. Białecka, B. (2008). Podziemne zgazowanie węgla - Podstawy procesu decyzyjnego [Underground coal gasification e the foundations of the decision-making process]. Katowice: Główny Instytut Górnictwa.
  • 2. Brotóns, V., Tomás, R., Ivorra, S., & Alarcón, J. C. (2013). Temperature influence on the physical and mechanical properties of a porous rock: San Julian's calcarenite. Engineering Geology, 167, 117-127.
  • 3. Bukowska, M. (2012). Skłonność górotworu do tąpań - geologiczne i geomechaniczne metody badań [The tendency to rock bumps - Geological and geomechanical testing methods]. Katowice: Główny Instytut Górnictwa.
  • 4. Burton, E., Friedmann, J., & Upadhye, R. (2007). Best practices in underground coal gasification. Livermore: Lawrence Livermore National Laboratory.
  • 5. Chen, Y.-L., Ni, J., Shao, W., & Azzam, R. (2012). Experimental study on the influence of temperature on the mechanical properties of granite under uni-axial compression and fatigue loading. International Journal of Rock Mechanics and Mining Sciences, 56, 62e66.
  • 6. Keshavarz, M., Pellet, L., & Loret, B. (2010). Damage and changes of a gabbro thermally loaded up to 1000°C. Pure and Applied Geophysics, 167, 1511-1523.
  • 7. Korzeniowski, W., & Skrzypkowski, K. (2012). Badania zmian wybranych właściwości geomechanicznych skał pod wpływem temperatury do 1100°C w aspekcie potencjalnych możliwości procesu podziemnego zgazowania węgla [Research of changes in selected geomechanical properties of rocks under the influence of temperature to 1100°C in terms potential underground coal gasification process]. Przegląd Górniczy, 68, 44-53.
  • 8. Luo, J., & Wang, L. (2011). High-temperature mechanical properties of mudstone in the process of underground coal gasification. Rock Mechanics and Rock Engineering, 44, 749-754.
  • 9. Mao, X., Zhang, L., Li, T., & Liu, H. (2009). Properties of failure mode and thermal damage for limestone at high temperature. Mining Science and Technology (China), 19, 290-294.
  • 10. Małkowski, P., Kamiński, P., & Skrzypkowski, K. (2012). Impact of heating carboniferous rocks on their mechanical parameters. AGH Journal of Mining and Geoengineering, 36(1), 231-242.
  • 11. Pinińska, J. (2007). Wpływ podwyższonej temperatury na właściwości mechaniczne skał [The effect of an increased temperature on the mechanical properties of rocks]. Prace Naukowe Instytutu Geotechniki i Hydrotechniki Politechniki Wrocławskiej, 76, 527-534.
  • 12. Ranjith, P. G., Viete, D. R., Chen, B. J., Samintha, M., & Perera, A. (2012). Transformation plasticity and the effect of temperature on the mechanical behaviour of Hawkesbury sandstone at atmospheric pressure. Engineering Geology, 151, 120-127.
  • 13. Ulusey, R., & Hudson, J. A. (Eds.). (2007). The complete ISRM suggested methods for rock characterization, testing and monitoring: 1974-2006. Ankara: Commission on Testing Methods ISRM.
  • 14. Wu, G., Wang, Y., Swift, G., & Chen, J. (2013). Laboratory investigation of the effects of temperature on the mechanical properties of sandstone. Geotechnical and Geological Engineering, 31(2), 809-816.
  • 15. Younger, P. L. (2011). Hydrogeological and geomechanical aspects of underground coal gasification and its direct coupling to carbon capture and storage. Mine Water and the Environment, 30(2), 127-140.
  • 16. Zhang, L., Mao, X., Liu, R., Guo, X., & Ma, D. (2013). The mechanical properties of mudstone at high temperature: an experimental study. Rock Mechanics and Rock Engineering, 47, 1479-1484.
  • 17. Zhang, L., Mao, X., & Lu, A. (2009). Experimental study on the mechanical properties of rock at high temperature. Science in China Series E: Technological Sciences, 52(3), 641-646.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6657448b-d139-4842-bd69-76c59533af26
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