prof. dr hab. inż. Norbert Skoczylas
Cytowane przez
Cytowane przez
Mechanical and gaseous properties of coal briquettes in terms of outburst risk
N Skoczylas, B Dutka, J Sobczyk
Fuel 134, 45-52, 2014
Laboratory study of the phenomenon of methane and coal outburst
N Skoczylas
International Journal of Rock Mechanics and Mining Sciences 55, 102-107, 2012
Balance of CO2/CH4 exchange sorption in a coal briquette
B Dutka, M Kudasik, Z Pokryszka, N Skoczylas, J Topolnicki, M Wierzbicki
Fuel Processing Technology 106, 95-101, 2013
Studies on the competitive sorption of CO2 and CH4 on hard coal
A Pajdak, M Kudasik, N Skoczylas, M Wierzbicki, LTP Braga
International Journal of Greenhouse Gas Control 90, 102789, 2019
Coal seam methane pressure as a parameter determining the level of the outburst risk–laboratory and in situ research
N Skoczylas
Archives of Mining Sciences 57 (4), 861-869, 2012
Evaluation and management of the gas and rock outburst hazard in the light of international legal regulations
M Wierzbicki, N Skoczylas
Archives of Mining Sciences, 2014
Sorption rate of carbon dioxide on coal
M Gawor, N Skoczylas
Transport in Porous Media 101, 269-279, 2014
The repeatability of sorption processes occurring in the coal-methane system during multiple measurement series
M Kudasik, N Skoczylas, A Pajdak
Energies 10 (5), 661, 2017
Estimating gas and rock outburst risk on the basis of knowledge and experience–the expert system based on fuzzy logic
N Skoczylas
Archives of Mining Sciences, 2014
CH4 and CO2 sorption and diffusion carried out in various temperatures on hard coal samples of various degrees of coalification
N Skoczylas, A Pajdak, M Kudasik, LTP Braga
Journal of Natural Gas Science and Engineering 81, 103449, 2020
Rock and gas outbursts-laboratory tests and in-shaft measurements
J Topolnicki, M Wierzbicki, N Skoczylas
Archives of Mining Sciences 49 (1), 99-116, 2004
The coal-gas system-the effective diffusion coefficient
N Skoczylas, J Topolnicki
International Journal of Oil, Gas and Coal Technology 12 (4), 412-424, 2016
Low cost capillary flow meter
J Topolnicki, M Kudasik, N Skoczylas, J Sobczyk
Sensors and Actuators A: Physical 152 (2), 146-150, 2009
The outburst risk as a function of the methane capacity and firmness of a coal seam
M Wierzbicki, N Skoczylas
Archives of Mining Sciences 59 (4), 1023-1031, 2014
Manostat—an accurate gas pressure regulator
M Kudasik, N Skoczylas, J Sobczyk, J Topolnicki
Measurement Science and Technology 21 (8), 085402, 2010
CO2 and CH4 sorption on carbon nanomaterials and coals–Comparative characteristics
A Pajdak, N Skoczylas, A Dębski, J Grzegorek, W Maziarz, M Kudasik
Journal of Natural Gas Science and Engineering 72, 103003, 2019
The application of the automatic search for visually similar geological layers in a borehole in introscopic camera recordings
M Młynarczuk, M Habrat, N Skoczylas
Measurement 85, 142-151, 2016
New instruments and methods for analysing the coal-methane system
N Skoczylas, M Kudasik, M Wierzbicki, T Murzyn
Studia Geotechnica et Mechanica 37 (1), 2015
Analyzer for measuring gas contained in the pore space of rocks
M Kudasik, N Skoczylas
Measurement Science and Technology 28 (10), 105901, 2017
Determining the gas permeability coefficient of a porous medium by means of the bubble-counting flow meter
N Skoczylas
Measurement Science and Technology 26 (8), 085004, 2015
Nie można teraz wykonać tej operacji. Spróbuj ponownie później.
Prace 1–20