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Libri sul tema "Gas migration in porous media"

Autore: Grafiati
Pubblicato: 19 aprile 2025

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1

Li, Dang, e Junbin Chen. Mechanics of Oil and Gas Flow in Porous Media. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-7313-2.

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2

Koponen, Antti. Simulations of fluid flow in porous media by lattice-gas and lattice-Boltzmann methods. Jyväskylä: University of Jyväskylä, 1998.

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3

Stanisław, Jucha, a cura di. The Flows of fluids in the porous media: Proceedings of the international symposium = Przepływy płynów w ośrodkach porowatych materiały : miedzynarodowego sympozjum. Kraków: Wydawn. AGH, 1986.

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4

Guo, Weixing. Numerical simulation of coupled heat transfer and gas flow in porous media with applications to acid mine drainage. University Park, PA: Dept. of Geosciences, Pennsylvania State University, 1993.

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5

Thomas, Lee W. Three-phase dynamic displacement measurements of relative permeability in porous media using three immiscible liquids: A thesis in Petroleum and Natural Gas Engineering. Springfield, Va: Available from the National Technical Information Service, 1991.

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6

Ho, Clifford K., e Stephen W. Webb. Gas Transport in Porous Media. Springer London, Limited, 2006.

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7

Ho, Clifford K., e Stephen W. Webb, a cura di. Gas Transport in Porous Media. Springer Netherlands, 2006. http://dx.doi.org/10.1007/1-4020-3962-x.

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8

Ho, Clifford K., e Stephen W. Webb. Gas Transport in Porous Media. Springer, 2008.

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9

Ho, Clifford K., e Stephen W. Webb. Gas Transport in Porous Media. Springer Netherlands, 2010.

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10

Khilar, Kartic C. Migration of fines in porous media. 1998.

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11

Yang, Diansen, Weizhong Chen, Wei Wang e XianYin Qi, a cura di. Gas Permeability of Tight Porous Media. Ausasia Science and Technology Press Pty Ltd, 2019. http://dx.doi.org/10.26804/gptpm.

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12

(Editor), Clifford K. Ho, e Stephen W. Webb (Editor), a cura di. Gas Transport in Porous Media (Theory and Applications of Transport in Porous Media). Springer, 2006.

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13

Gondim, Fabiano. Modelling DNAPL migration and recovery in porous media. 2004, 2004.

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14

Gas Wettability of Reservoir Rock Surfaces with Porous Media. Elsevier, 2018. http://dx.doi.org/10.1016/c2017-0-02303-0.

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15

Li, Dang, e Junbin Chen. Mechanics of Oil and Gas Flow in Porous Media. Springer, 2020.

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16

Jiang, Guancheng. Gas Wettability of Reservoir Rock Surfaces with Porous Media. Elsevier Science & Technology Books, 2018.

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17

Li, Dang, e Junbin Chen. Mechanics of Oil and Gas Flow in Porous Media. Springer Singapore Pte. Limited, 2021.

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18

Gas Wettability of Reservoir Rock Surfaces with Porous Media. Elsevier Science & Technology, 2018.

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19

Kumar, Chethan Mohan. Cfd Simulation of Multicomponent Gas Flow Through Porous Media. GRIN Verlag GmbH, 2013.

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20

Hamilton, R. J. Study of Linear, Steady State, Gas Flow Through Consolidated Porous Media. Creative Media Partners, LLC, 2021.

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21

Bennett, David A. Gas flow in layered porous media with particular reference to the iron blast furnace. 1989.

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22

Towler, Brian F. Fundamental Principles of Reservoir Engineering. Society of Petroleum Engineers, 2002. http://dx.doi.org/10.2118/9781555630928.

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Abstract (sommario):
Fundamental Principles of Reservoir Engineering outlines the techniques required for the basic analysis of reservoirs prior to simulation. It reviews rock and fluid properties, reservoir statics, determination of original oil and gas in place by volumetrics and material balances, evaluation of drive mechanisms, fluid flow in porous media, aquifer influx, well testing, fluid distribution and displacement, and decline-curve analysis.
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23

Delgado Martín, Jordi, Andrea Muñoz-Ibáñez e Ismael Himar Falcón-Suárez. 6th International Workshop on Rock Physics: A Coruña, Spain 13 -17 June 2022: Book of Abstracts. 2022a ed. Servizo de Publicacións da UDC, 2022. http://dx.doi.org/10.17979/spudc.000005.

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Abstract (sommario):
[Abstract] The 6th International Workshop on Rock Physics (6IWRP) was held A Coruña, Spain, between 13th and 17th of June, 2022. This meeting follows the track of the five successful encounters held in Golden (USA, 2011), Southampton (UK, 2013), Perth (Australia, 2015), Trondheim (Norway, 2017) and Hong Kong (China, 2019). The aim of the workshop was to bring together experiences allowing to illustrate, discuss and exchange recent advances in the wide realm of rock physics, including theoretical developments, in situ and laboratory scale experiments as well as digital analysis. While rock physics is at the core of the oil & gas industry applications, it is also essential to enable the energy transition challenge (e.g. CO2 and H2 storage, geothermal), ensure a safe and adequate use of natural resources and develop efficient waste management strategies. The topics of 6IWRP covered a broad spectrum of rock physics-related research activities, including: • Experimental rock physics. New techniques, approaches and applications; Characterization of the static and dynamic properties of rocks and fluids; Multiphysics measurements (NMR, electrical resistivity…); Deep/crustal scale rock physics. • Modelling and multiscale applications: from the lab to the field. Numerical analysis and model development; Data science applications; Upscaling; Microseismicity and earthquakes; Subsurface stresses and tectonic deformations. • Coupled phenomena and rock properties: exploring interactions. Anisotropy; Flow and fractures; Temperature effects; Rock-fluid interaction; Fluid and pressure effects on geophysical signatures. • The energy transition challenge. Applications to energy storage (hydrogen storage in porous media), geothermal resources, energy production (gas hydrates), geological utilization and storage of CO2, nuclear waste disposal. • Rock physics templates: advances and applications. Quantitative assessment; Applications to reser voir characterization (role of seismic wave anisotropy and fracture networks). • Advanced rock physics tools. Machine learning; application of imaging (X-ray CT, X-ray μCT, FIB-SEM…) to obtain rock proper ties. This book compiles more than 50 abstracts, summarizing the works presented in the 6IWRP by rock physicists from all over the world, belonging to both academia and industry. This book means an updated overview of the rock physics research worldwide.
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