Effectiveness and sensitivity analysis of solution gas re-injection in Baikouquan tight formation, Mahu sag for enhanced oil recovery

Bing Wei; Tao Song; Yan Gao; Hua Xiang; Xingguang Xu; Valeriy Kadet; Jinlian Bai; Zhiwei Zhai

doi:10.1016/j.petlm.2019.10.001

Petroleum ›› 2020, Vol. 6 ›› Issue (3) :253 -263. DOI: 10.1016/j.petlm.2019.10.001

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Effectiveness and sensitivity analysis of solution gas re-injection in Baikouquan tight formation, Mahu sag for enhanced oil recovery

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Abstract

To address the fast productivity decline of the horizontal wells and low oil recovery during natural depletion in Baikouquan formation, the approach of solution gas re-injection was proposed with the primary objective of further developing this formation. Herein, a field-scale numerical compositional reservoir model was built up based on the formation properties and then the effects of permeability, fractures and formation stress on the production dynamics were thoroughly investigated. A sensitivity analysis, which can correlate the oil recovery with these parameters, was also performed. The results showed that the re-injection of solution gas could remarkably retard the production depletion of the horizontal wells thereby improving the oil production. The oil recovery rate increased with permeability, fracture half-length, fracture conductivity, and formation dip. With regard to the fracture distribution, it was found that the interlaced fracture outperformed the aligned fracture for the solution gas re-injection. The influence of the formation stress should be carefully considered in the production process. Sensitivity analysis indicated that the formation dip was the paramount parameter, and the permeability, fracture half-length, and fracture conductivity also played central roles. The results of this study supplement earlier observations and provide constructive envision for enhanced oil recovery of tight reservoirs.

Keywords

Tight oil reservoir / Mahu sag / Solution gas re-injection / Numerical simulation / Fracturing / Sensitivity analysis

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Bing Wei, Tao Song, Yan Gao, Hua Xiang, Xingguang Xu, Valeriy Kadet, Jinlian Bai, Zhiwei Zhai. Effectiveness and sensitivity analysis of solution gas re-injection in Baikouquan tight formation, Mahu sag for enhanced oil recovery. Petroleum, 2020, 6(3): 253-263 DOI:10.1016/j.petlm.2019.10.001

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Acknowledgements

The authors gratefully acknowledge the financial support of the National Natural Science Foundation of China (51974265 and 51804264), Science Foundation Shanxi Province, China (201701D121129), Science Foundation of Shanxi Institute of Energy (ZY-2017001), and Youth Science and Technology Innovation Team of SWPU (2017CXTD04). The authors also thank the Computer Modeling Group Ltd. for providing the CMG software for this study. The authors would like to thank the anonymous reviewers for valuable comments and suggestions.

References

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[1]	B. Wei, X. Zhang, R. Wu, P. Zou, K. Gao, X. Xu, et al., Pore-scale monitoring of CO₂ and N2 flooding processes in a tight formation under reservoir conditions using nuclear magnetic resonance (NMR): a case study, Fuel 246 (2019) 34-41.

[2]	B. Wei, X. Zhang, J. Liu, X. Xu, W. Pu, M. Bai, Adsorptive behaviors of supercritical CO₂ in tight porous media and triggered chemical reactions with rock minerals during CO2-EOR and -sequestration, Chem. Eng. J. 381 (2020), https://doi.org/10.1016/j.cej.2019.122577.

[3]	W. Pu, B. Wei, F. Jin, Y. Li, H. Jia, P. Liu, et al., Experimental investigation of CO₂ Huff-n-Puff process for enhancing oil recovery in tight reservoirs, Chem. Eng. Res. Des. 111 (2016) 269-276.

[4]	J. Wang, L. Feng, M. Steve, X. Tang, T.E. Gail, H. Mikael, China's unconventional oil: a review of its resources and outlook for long-term production, Energy 82 (2015) 31-42.

[5]	B. Ren, L. Zhang, H. Huang, S. Ren, G. Chen, H. Zhang, Performance evaluation and mechanisms study of near-miscible CO₂ flooding in a tight oil reservoir of Jilin Oilfield China, J. Nat. Gas Sci. Eng. 27 (2015) 1796-1805.

[6]	R. Sun, W. Yu, F. Xu, H. Pu, J. Miao, Compositional simulation of CO₂ huff-n-puff process in Middle Bakken tight oil reservoirs with hydraulic fractures, Fuel 236 (2019) 1446-1457.

[7]	C. Jia, M. Zheng, Y. Zhang, Unconventional hydrocarbon resources in China and the prospect of exploration and development, Pet. Explor. Dev. 39 (2) (2012) 139-146.

[8]	B.V. Cherian, E.S. Stacey, R. Lewis, F.O. Iwere, R.N. Heim, S.M. Higgins, Evaluating horizontal well completion effectiveness in a field development program, SPE 152177, Presented at SPE Hydraulic Fracturing Technology Conference. The Woodlands, TX: February 6-8, 2012.

[9]	L. Wang, Y. Tian, X. Yu, C. Wang, B. Yao, S. Wang, et al., Advances in improved/enhanced oil recovery technologies for tight and shale reservoirs, Fuel 210 (2017) 425-445.

[10]	W. Yu, H. Lashgari, K. Sepehrnoori, Simulation study of CO₂ Huff-n-Puff process in Bakken tight oil reservoirs, SPE 169575, Presented at SPE Western North American and Rocky Mountain Joint Meeting. Denver, Colorado: April 17-18, 2014.

[11]	A.S. Chaudhary, C.A. Ehlig-Economides, R.A. Wattenbarger, Shale oil production performance from a stimulated reservoir volume, SPE 147596 Presented at SPE Annual Technical Conference and Exhibition. Denver, Colorado:October 30-November 2, 2011.

[12]	L. Wang, B. Yao, H. Xie, P.H. Winterfeld, T.J. Kneafsey, X. Yin, et al., CO₂ injectioninduced fracturing in naturally fractured shale rocks, Energy 139 (2017) 1094-1110.

[13]	Y. Ghomian, G.A. Pope, K. Sepehrnoori, Reservoir simulation of CO₂ sequestration pilot in Frio brine formation, USA Gulf Coast, Energy 33 (7) (2008) 1055-1067.

[14]	B. Wei, L. Lu, W. Pu, R. Wu, X. Zhang, Y. Li, et al., Production dynamics of CO₂ cyclic injection and CO₂ sequestration in tight porous media of Lucaogou formation in Jimsar sag, J. Pet. Sci. Eng. 157 (2017) 1084-1094.

[15]	S. Emberley, I. Hutcheon, M. Shevalier, K. Durocher, W.D. Gunter, E.H. Perkins, Geochemical monitoring of fluid-rock interaction and CO₂ storage at the Weyburn CO2-injection enhanced oil recovery site, Saskatchewan, Canada, Energy 29 (9) (2004) 1393-1401.

[16]	E.J. Manrique, C.P. Thomas, R. Ravikiran, M. Izadi Kamouei, M. Lantz, J.L. Romero, et al., EOR: current status and opportunities, SPE 130113, Presented at SPE Improved Oil Recovery Symposium. Tulsa, Oklahoma: April 24-28, 2010.

[17]	J. Qin, H. Han, X. Liu, Application and enlightenment of carbon dioxide flooding in the United States of America, Pet. Explor. Dev. 42 (2) (2015) 232-240.

[18]	B. Ren, S. Ren, L. Zhang, G. Chen, H. Zhang, Monitoring on CO₂ migration in a tight oil reservoir during CCS-EOR in Jilin Oilfield China, Energy 98 (2016) 108-121.

[19]	X. Guo, Z. Du, L. Sun, W. Huang, C. Zhang, Optimization of Tertiary water-alternate-CO₂ flood in Jilin oil field of China: laboratory and simulation studies, SPE 99616, Presented at SPE/DOE Symposium on Improved Oil Recovery. Tulsa, Oklahoma: April 22-28, 2006.

[20]	L. Lu, B. Liu, A feasibility research method and project design on CO₂ miscible flooding for a small complex fault block field, SPE 50930, Presented at SPE International Oil and Gas Conference and Exhibition in China. Beijing : November 2-6, 1998.

[21]	Y. Zhang, Y. Di, Y. Shi, J. Hu, Cyclic CH4 injection for enhanced oil recovery in the eagle ford shale reservoirs, Energies 11 (11) (2018) 1-15.

[22]	D. Sanchez-Rivera, K. Mohanty, M. Balhoff, Reservoir simulation and optimization of Huff-and-Puff operations in the Bakken shale, Fuel 147 (2015) 82-94.

[23]	P. Zanganeh, H. Dashti, S. Ayatollahi,Comparing the effects of CH4, CO2, and N2 injection on asphaltene precipitation and deposition at reservoir condition: a visual and modeling study, Fuel 217 (2018) 633-641.

[24]	S. Shayegi, Z. Jin, P. Schenewerk, J. Wolcott,Improved cyclic stimulation using gas mixtures, SPE 36687, Presented at SPE Annual Technical Conference and Exhibition. Denver, Colorado: October 6-9, 1996.

[25]	B.N. Yolo, Y. Agbor, H. Pu, Ethane flooding as an alternative to CO₂ injection in tight formations: a Bakken Case Study, URTEC 2897170, Presented at SPE/AAPG/SEG Unconventional Resources Technology Conference. Houston, Texas: July 23-25, 2018.

[26]	Z. Yuan, Y. Wei, Z. Li, K. Sepehrnoori, Simulation study of factors affecting CO₂ Huff-n -Puff process in tight oil reservoirs, J. Pet. Sci. Eng. 163 (2018) 264-269.

[27]	T.H. Kim, J. Cho, K.S. Lee, Modeling of CO₂ flooding and Huff and Puff considering molecular diffusion and stress-dependent deformation in tight oil reservoir, SPE 185783, Presented at SPE Europec Featured at 79th EAGE Conference and Exhibition. Paris, France, 2017 June 12-15.

[28]	R. Raghavan, L.Y. Chin, Productivity changes in reservoirs with stress-dependent permeability, SPE 77535, Presented at SPE Annual Technical Conference and Exhibition. San Antonio, Texas, September 29 -October 2, 2002.

[29]	L.Y. Chin, R. Raghavan, L.K. Thomas, Fully-coupled geomechanics and fluid-flow analysis of wells with stress-dependent permeability, SPE 48857, Presented at SPE International Oil and Gas Conference and Exhibition in China. Beijing, November 2-6, 1998.

[30]	N. Cao, G. Lei, Stress sensitivity of tight reservoirs during pressure loading and unloading process, Pet. Explor. Dev. 46 (1) (2019) 138-144.

[31]	CMG-Winprop, Winprop User's Guide, Computer Modeling Group Ltd, 2015.

[32]	Y. Zhang, W. Yu, Z. Li, K. Sepehrnoori, Simulation study of factors affecting CO₂ Huff-n-Puff process in tight oil reservoirs, J. Pet. Sci. Eng. 163 (2018) 264-269.

[33]	J.M. Terracina, J.M. Turner, D.H. Collins, S. Spillars, Proppant selection and its effect on the results of fracturing treatments performed in shale formations, SPE 48857, Presented at SPE Annual Technical Conference and Exhibition. Florence, September 19-22, 2010.

[34]	P. Zuloaga, W. Yu, J. Miao, K. Sepehrnoori,Performance evaluation of CO₂ Huff-n-Puff and continuous CO2 injection in tight oil reservoirs, Energy 134 (2017) 181-192.

[35]	R.H. Myers, D.C. Montgomery, Response surface methodology : process and product optimization using designed experiments, Technometrics 38 (3) (2008) 284-286.

[36]	L. Dobos, J. Abonyi, Controller tuning of district heating networks using experiment design techniques, Energy 36 (8) (2011) 4633-4639.

[37]	CMG-CMOST, CMOST User's Guide, Computer Modeling Group Ltd, 2015.

[38]	J. Kiefer, Optimum designs in regression problems, Ann. Math. Stat. 30 (2) (1959) 271-294.

[39]	A. Saltelli, M. Ratto, T. Andres, F. Campolongo, J. Cariboni, D. Gatelli, et al., Global Sensitivity Analysis: the Primer, John Wiley & Sons, 2008.