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Prognozowanie ciśnień porowych w ośrodku geologicznym z wykorzystaniem modułu Seismic Pore Pressure Modeling firmy WesternGeco

Wilk A.

Nafta-Gaz

2016

R. 72, nr 2

79--86

Do obliczenia gradientu ciśnień porowych wykorzystano moduł Seismic Pore Pressure Modeling firmy WesternGeco, który został udostępniony autorowi na okres jednego miesiąca. Atutem wspomnianego modułu jest jego interaktywność oraz fakt, iż pracuje on w systemie Petrel firmy Schlumberger, będącym jednym z podstawowych narzędzi interpretacyjnych używanych przez polskie jednostki przemysłowe. Do obliczeń wykorzystano rzeczywiste pomiary ze zdjęcia sejsmicznego 3D z północnego obszaru Polski. Uzyskano zadowalające wyniki potwierdzające użyteczność tego narzędzia w pracach poszukiwawczych.

Pore pressure gradient calculations were based on the module “Pore Pressure Seismic Modeling” of WesternGeco, which was made available to the author for a period of one month. The advantage of this module is its interactivity, and the fact that it works in the Schlumberger Petrel system, which is one of the basic tools of interpretation used by our native oil industry. For calculations, actual measurements of the 3D seismic survey of the northern Polish territory were used. Satisfactory results confirming the usefulness of this tool in exploration work was achieved.

Nonlinear motion law of coalbed gas seepage under the combined effects of stress field and temperature field

Li B., Wei J., Li P., Wang K., Borisyuk Y. A.

Journal of Power Technologies

2014

Vol. 94, nr 2

106--113

The shrinkage and swelling of the coal matrix due to the effects of temperature were investigated through the performance by Henan Province Key Lab of Gas Geology & Gas Control of a permeability test of loaded coal under various temperature and working conditions using its own seepage equipment for thermo-fluid-solid-mechanical coupling of methane-containing coal. The variation of coal permeability under the combined effects of stress and temperature was investigated, and the gas motion law in the coal samples was tested. The variation equations of coal permeability under the combined effects of stress and temperature, as well as the motion equations describing the nonlinear gas seepage law in coal seams were established. The established equations were proved to fit well with the experimental data, which demonstrated that the motion equations and the research methods were both reasonable. Study on the seepage nonlinear motion law of gas in the coal seam is great significance to mineral gas extraction.