Abstract
Gas emissions occur quite often in the North seas while carrying out oil-extracting works in the area. It is very important to be able to forecast such gas accumulations spread for further taking appropriate measures to avoid such emissions. This chapter represents the results of modeling of the spread of seismic waves in the layered structure of soil with present gas pockets for the 2D formulation of the problem. The seismograms and wave pictures have been obtained. The approach of gas layers towards the surface of the integration area on the 4th year of computation is shown.
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References
Petrov, I.B.: Numerical problems of the modeling of natural and industrial processes in the Arctic zone of the Russian Federation. Chebyshevskii Sbornik 418(3), 428–443 (2017). (in Russian)
Judd, A., Hovland, M. S.: Seabed Fluid Flow. The Impact on Geology, Biology and the Marine Environment. Cambridge (2007)
Bogoyavlenskiy, V.I., Tupysev, M.K., Titovskiy, A.L., Pushkarev, V.A.: Rational environmental management of regions with natural gas accumulations in upper parts of a layer. Vesti Gazovoy Nauki 2(26), 1–5 (2016). (in Russian)
Xue, L., Fan, J., Rausand, M., Zhang, L.: A safety barrier-based accident model for offshore drilling blowouts. J. Loss Prev. Process Ind. 26(1), 164–171 (2013)
Chan, K. (ed.): Environmental Engineering and Computer Application. Taylor & Francis Group, London (2015)
Holand, P.: Offshore Blowouts: Causes and Control. Guif Publishing Company, Houston, Texas, USA (1997)
Kvenvolden, K.A.: Potential effect of gas hydrate on human welfare. Proc. Natl. Acad. Sci. U S A 96(7), 3420–3426 (1999)
Collett, T.S., Ginsburg, G.D.: Gas hydrates in messoyakha gas field of the west Siberian basin—A re-examination of the geologic evidence. Int. Soc. Offshore Polar Eng. 8(1), 22–29 (1998)
Collett, T.S.: Gas hydrate resources of northern Alaska. Bull. Can. Petrol. Geol. 45(3), 317–338 (1997)
Collett, T., Johnson, C., Knapp, C., Boswell, R.: Natural gas hydrates—energy resource potential and associated geologic hazards. AAPG Memoir. 89, 146–219 (2009)
Xu, W., Ruppel, C.: Predicting the occurrence, distribution and evolution of methane gas hydrate in porous marine sediments. J. Geophys. Res. 104(B3), 5081–5095 (1999)
Kurlenya, M.V., Serdyukov, A.S., Duchkov, A.A., Serdyukov, S.V.: Wave tomography of methane pockets in coal bed. J. Min. Sci. 50(4), 617–622 (2014)
Novatskii, V.: Theory of Elasticity. Government Scientific Publishing House, Warsaw (1970)
Landau, L.D., Lifshitz, E.M.: Course of Theoretical Physics. vol. 6, 2 edn. Pergamon Press Oxford, New York, Beijing, Frankfurt, Sao Paulo, Sydney, Tokyo, Toronto (1987)
Magomedov, K.M., Kholodov, A.S.: Grid-Characteristic Numerical Methods. Nauka, Moscow (1988). (in Russian)
Golubev, V.I., Gilyazutdinov, R.I., Petrov, I.B., Khokhlov, N.I., Vasyukov, A.V.: Simulation of dynamic processes in three-dimensional layered fractured media with the use of the grid-characteristic numerical method. J. Appl. Mech. Tech. Phys. 58(3), 539–545 (2017)
Kvasov, I.E., Pankratov, S.A., Petrov, I.B.: Computation modeling of seismic response in multilayeredgeologic medium by the grid-characteristic method. Math. Models Comput. Simul. 22(9), 13–21 (2010)
Muratov, M.V., Petrov, I.B., Sannikov, A.V., Favorskaya, A.V.: Grid-characteristic method on unstructured tetrahedral meshes. Comput. Math. Math. Phys. 54(5), 837–847 (2014)
Favorskaya, A.V., Petrov, I.B.: A study of high-order-characteristic methods on unstructured grids. Num. Anal. Appl. 9(2), 171–178 (2016)
Golubev, V.I., Petrov, I.B., Khokhlov, N.I.: Compact grid-characteristic schemes of higher orders of accuracy for a 3D linear transport equation. Math. Models Comput. Simul. 28(2), 123–132 (2016)
Kholodov, A.S., Kholodov, Ya.A.: Monotonocity criteria for difference schemes designed for hyperbolic equations. Comput. Math. Math. Phys. 46(9), 1560–1588 (2006)
Jinxian, H., Xiaoli, Z., Ma, L., Wu, H., Ashraf, M.A.: Geological characteristics of unconventional gas in coal measure of upper Paleozoic measures in Ordos basin. Earth Sci. Res. J. 20(1), (2016). http://dx.doi.org/10.15446/esrj.v20n1.54140
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The work was supported by the Ministry of Education and Science of the Russian Federation (No. 2.9901.2017/8.9).
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Stognii, P.V., Khokhlov, N.I. (2019). 2D Seismic Prospecting of Gas Pockets. In: Petrov, I., Favorskaya, A., Favorskaya, M., Simakov, S., Jain, L. (eds) Smart Modeling for Engineering Systems. GCM50 2018. Smart Innovation, Systems and Technologies, vol 133. Springer, Cham. https://doi.org/10.1007/978-3-030-06228-6_14
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