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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 10/2015

01.05.2015 | Thematic Issue

A quadruple-porosity model for transient production analysis of multiple-fractured horizontal wells in shale gas reservoirs

verfasst von: Jingjing Guo, Liehui Zhang, Qin Zhu

Erschienen in: Environmental Earth Sciences | Ausgabe 10/2015

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Abstract

Multiple types of pores are present in shale gas reservoirs, including organic pores of nano scale, non-organic pores, natural and hydraulic fractures. Gas flow in different types of pores is controlled by different mechanisms, and Darcy’s law is not able to describe all these processes adequately. This paper presents a “quadruple-porosity” model and corresponding analytical solutions to describe the different permeable media and simulate transient production behavior of multiple-fractured horizontal wells in shale gas reservoirs. Dimensionless transient production decline curves are plotted, and characteristic bilinear flow and linear flow periods are identified based on the analysis of type curves. Sensitivity analysis of transient production dynamics suggests that desorption of absorbed gas, Knudsen diffusive flow, gas slippage and parameters related to hydraulic fractures have significant influence on the production dynamics of a multiple-fractured horizontal well in shale gas reservoirs. The model provides insights into multiple shale gas flow mechanisms and production prediction of shale gas reservoirs.
Vorheriger Artikel Progressive failure constitutive model for softening behavior of rocks based on maximum entropy theory
Nächster Artikel Static and dynamic uniaxial compression tests on coal rock considering the bedding directivity

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Literatur
Al-Hussainy R, Ramey HJ, Crawford PB (1966) The flow of real gases through porous media. JPT 18(5):624–636CrossRef
Bello RO, Wattenbarger RA (2010a) Modeling and analysis of shale gas production with a skin effect. J Can Pet Technol 49(12):37–48CrossRef
Bello RO, Wattenbarger RA (2010) Multi-stage hydraulically fractured horizontal shale gas well rate transient analysis. SPE Paper 126754 presented at the SPE North Africa Technical Conference and Exhibition. Cairo
Brown GP, Dinardo A, Cheng GK, Sherwood TK (1946) The flow of gases in pipes at low pressures. J Appl Phys 17:802–813CrossRef
Brown M, Ozkan E, Raghavan R, Kazemi H (2009) Practical solutions for pressure transient responses of fractured horizontal wells in unconventional reservoirs. SPE Reservoir Eval Eng 14(6):663–676CrossRef
Gou Y, Zhou L, Zhao X, Hou ZM, Were P (2015) Numerical study on hydraulic fracturing in different types of georeservoirs with consideration of H2M-coupled leak-off effects. Environ Earth Sci. doi:10.​1007/​s12665-015-4112-5
Haghshenas B, Chen S, Clarkson CR (2013) Multi-porosity multi-permeability models for shale gas reservoirs. SPE Paper 167220 presented at the Unconventional Resources Conference. Calgary
Hill B, Nelson CR (2000) Gas productive fractured shales: an overview and update. Gas TIP 6:4–13
Javadpour F (2009) Nanopores and apparent permeability of gas flow in mudrocks (Shale and siltstone). J Can Pet Technol 48(8):16–21CrossRef
Javadpour F, Fisher D, Unsworth M (2007) Nanoscale gas flow in shale gas sediments. J Can Pet Technol 46(10):55–61CrossRef
Kissinger A, Helmig R, Ebigbo A, Class H, Lange T, Sauter M, Heitfeld M, Klunker J, Jahnke W (2013) Hydraulic fracturing in unconventional gas reservoirs: risks in the geological system part 2. Environ Earth Sci 70:3855–3873. doi:10.​1007/​s12665-013-2578-6 CrossRef
Lange T, Sauter M, Heitfeld M, Schetelig K, Brosig K, Jahnke W, Kissinger A, Helmig R, Ebigbo A, Class H (2013) Hydraulic fracturing in unconventional gas reservoirs: risks in the geological system part 1. Environ Earth Sci 70:3839–3853. doi:10.​1007/​s12665-013-2803-3 CrossRef
Medeiors F, Ozkan E, Kazemi H (2008) Productivity and drainage area of fractured horizontal wells in tight gas reservoirs. SPE Reservoir Eval Eng 11(5):902–911CrossRef
Nie HK, Zhang JC (2010) Shale gas reservoir distribution geological law, characteristics and suggestions. J Cent South Univers 41(2):700–707
Reed RM, John A, Katherine G (2007) Nanopores in the Mississippian Barnett shale: Distribution, morphology, and possible genesis. GAS Annual Meeting & Exposition. Denver
Shabro V, Torres-Verdin C, Javadpour F (2011) Numerical simulation of shale-gas production: from pore-scale modeling of slip-flow, Knudsen diffusion and Langmuir desorption to reservoir modeling of compressible fluid. SPE Paper 144355 presented at the SPE North American Unconventional Conference and Exhibition. Woodlands
Stalgorova E, Mattar L (2012) Practical analytical model to simulate production of horizontal wells with branch fractures. SPE Paper 162515 presented at the SPE Canadian Unconventional Resources Conference, Calgary. Alberta
Stalgorova E, Mattar L (2013) Analytical model for unconventional multifractured composite systems. SPE Reservoir Eval Eng 16(3):246–256CrossRef
Stehfest H (1970) Numerical inversion of Laplace transforms. Comm ACM 13:47–49CrossRef
Swami V, Settari A (2012) A pore scale flow model for shale gas reservoir. SPE Paper 155756 presented at the Americas Unconventional Resources Conference. Pittsburgh, Pennsylvania
Van-Everdingen AF, Hurst W (1949) The application of the Laplace transformation to flow problem in reservoirs. J Petrol Technol 1(12):305–324CrossRef
Wang HT (2014) Performance of multiple fractured horizontal wells in shale gas reservoirs with consideration of multiple mechanisms. J Hydrol 510:299–312CrossRef
Zeng FH, Zhao G (2007) Gas well production analysis with non-Darcy flow and real-gas PVT behavior. J Petrol Sci Eng 59:169–182CrossRef
Zeng FH, Zhao G (2010) The optimal hydraulic fracture geometry under non-Darcy flow effects. J Petrol Sci Eng 72:143–157CrossRef
Metadaten
Titel
A quadruple-porosity model for transient production analysis of multiple-fractured horizontal wells in shale gas reservoirs
verfasst von
Jingjing Guo
Liehui Zhang
Qin Zhu
Publikationsdatum
01.05.2015
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 10/2015
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-015-4368-9

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