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Erschienen in:

2024 | OriginalPaper | Buchkapitel

Study on NGH-Bearing Sample Preparation Methods Optimization by Index Evaluation

verfasst von : Yihui Guo, Ye Chen, Fangzhu Xi, Wei Hou, Haichuan Lu, Lei Wu, Xu Chen

Erschienen in: Proceedings of the Fifth International Technical Symposium on Deepwater Oil and Gas Engineering

Verlag: Springer Nature Singapore

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Abstract

Core sampling preparation is a common simulation way to learn the multi-physical field variations and multi-phase seepage laws in porous media during drilling and production for natural gas hydrate (hereinafter NGH), which is of great significance to ensure production safety and improve mining efficiency. Selecting the yield, fidelity, controllability, intuition, stability and cost as key evaluation indexes, four mainstream NGH-bearing sample preparation methods, including core drilling, sand packing, digital core, etched model, and their derived combined methods, are assessed in multiple dimensions. Then the reasonable optimization and development suggestions are put forward.

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Vorheriges Kapitel Study on the Factors Affecting Gas Production and Sedimentation Ratios in the Extraction Process of Marine Methane Hydrate

Qian, B., Zhu, J.: Natural gas hydrate: immense potential energy. Nat. Gas Oil 26(4), 47–52 (2008)

Wu, N., Li, Y., Wan, Z., et al.: Prospect of marine natural gas hydrate stimulation theory and technology system. Nat. Gas Ind. 40(8), 100–115 (2020)

Zhong, S., Wu, X.: Core physical property test and parameter analysis and application. Oil Geophys. Prospect. 29(A2), 56–58 (1994)

Su, K., Sun, C., Li, N., et al.: A large-scale three-dimensional device for simulating natural gas hydrates accumulation and distribution process in sediments. Nat. Gas Ind. 33(12), 173–178 (2013)

Li, S., Guo, S., Chen, Y., et al.: Advanced and recommendations for multi-field characteristics and coupling seepage in natural gas hydrate development. Chin. J. Theor. Appl. Mech. 52(3), 828–842 (2020)

Gao, Y.H., Chen, Y., Zhao, X.X., et al.: Risk analysis on the blowout in deepwater drilling when encountering hydrate-bearing reservoir. Ocean Eng. 170, 1–5 (2018)CrossRef

Chen, Y., Gao, Y.H., Xin, G.Z., et al.: Theoretical analysis and numerical simulation of multi-fields coupled variation during deepwater hydrate-bearing reservoir exploitation. In: ICCES, 24–28 March, Japan, Tokyo (2019)

Song, X.: Technical problems with the operation of rock cores. Explor. Eng. 6, 36–38 (1986)

Jiang, G., Wang, R., Li, Z., et al.: Drilling procedure control and sampling of gas hydrates. Explor. Eng. 3, 33–35 (2001)

10.

Liu, X., Ruan, H., Zhao, Y., et al.: Progress in research and application of the pressure-temperature core sampler for marine natural gas hydrate. Drill. Eng. 48(7), 33–39 (2021)

11.

Bai, Y., Li, Q.: Progress on natural gas hydrate sampling techniques and tools. Petrol. Drill. Tech. 38(6), 116–123 (2010)

12.

Li, X., Wang, H., Zhang, Y., et al.: Development of marine gas-hydrate detection and drilling sampler. Explor. Eng. (Rock Soil Drill. Tunneling) 45(10), 47–51 (2018)

13.

Zhu, Y., Chen, G., Zhang, R.: Safety evaluation on the wellbore stability of the gas hydrate due to the temperature of drilling fluid. J. Saf. Environ. 18(6), 2131–2135 (2018)

14.

Zhou, C., Zhu, C., Wang, Y., et al.: Study on the development of man-made core and the influencing factors of permeability. Petrochemical Ind. Appl. 9, 85–89 (2017)

15.

Chen, Y., Sun, B., Gao, Y., et al.: Pressure effects on heat transfer in hydrate-bearing deposit with drilling fluid invasion by lab simulation. Int. J. Green Energy 16(10), 770–777 (2019)CrossRef

16.

Yao, J., Zhao, X., Yi, Y., et al.: The current situation and prospect on digital core technology. Oil Gas Recov. Technol. 12(6), 52–54 (2005)

17.

Lin, C., Wu, Y., Ren, L., et al.: Review of digital core modeling methods. Prog. Geophys. 33(2), 679–689 (2018)

18.

Li, C., Liu, L., Sun, J., et al.: Finite element analysis of micro-seepage in hydrate-bearing quartz sands based on digital cores. Marine Geol. Front. 36(9), 68–72 (2020)

19.

Zhang, L., Kang, Q., Yao, J., et al.: Pore scale simulation of liquid & gas two-phase flow based on digital core technology. Sci. China Technol. Sci. 58(8), 1375–1384 (2015)CrossRef

20.

Chen, Y., Sun, B., Chen, L., et al.: Simulation and observation of hydrate phase transition in porous medium via microfluidic application. Ind. Eng. Chem. Res. 58(12), 5071–5079 (2019)CrossRef

Titel: Study on NGH-Bearing Sample Preparation Methods Optimization by Index Evaluation
verfasst von: Yihui Guo
Ye Chen
Fangzhu Xi
Wei Hou
Haichuan Lu
Lei Wu
Xu Chen
Verlag: Springer Nature Singapore
Buch: Proceedings of the Fifth International Technical Symposium on Deepwater Oil and Gas Engineering
Print ISBN: 978-981-9713-08-0

Electronic ISBN: 978-981-9713-09-7

Copyright-Jahr: 2024
DOI: https://doi.org/10.1007/978-981-97-1309-7_55