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Experimental study on the flowback of a carboxymethyl hydroxypropyl guar gum fracturing fluid with good temperature resistance

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
For unconventional oil and gas reservoirs such as shale oil and gas as well as tight oil and gas, hydraulic fracturing generally enhances oil recovery. However, the flowback rate of the residual fracturing fluid is low. The residual fracturing fluid in the fracture or the rock ma- trix can reduce relative permeability of oil and gas, and the production rate will decrease. Therefore, it is necessary to study the factors that affect the flowback rate of the fracturing fluid. Most previous studies used the slot model, and viscous and capillary forces explain stable discharge in porous media. The conclusions were only a primarily qualitative analysis. The factors from experimental studies were not comprehensive, and they did not consider the influence of gravity. There are few studies on unstable drainage in porous media un- der different displacement directions. This paper presents a carboxymethyl hydroxypropyl guar gum fracturing fluid with good temperature resistance, and a fracturing fluid flowback experiment is carried on. The effects of the displacement direction, injection pressure, inter- facial tension, fracturing fluid viscosity, and proppant wettability on the flowback rate are analyzed. The research results can provide formulation of the on-site construction scheme.
Rocznik
Strony
733--744
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
  • Shal Gas Evaluation and Exploitation Key Laboratory of Sichuan Province, Chengdu, China
  • Shandong Institute of Petroleum and Chemical Technology, Dongying, China
autor
  • Shal Gas Evaluation and Exploitation Key Laboratory of Sichuan Province, Chengdu, China
autor
  • Shal Gas Evaluation and Exploitation Key Laboratory of Sichuan Province, Chengdu, China
  • Shal Gas Evaluation and Exploitation Key Laboratory of Sichuan Province, Chengdu, China
Bibliografia
  • 1. Adegbite J.O., Al-Shalabi E.W., 2020, Optimization of engineered water injection performance in heterogeneous carbonates: a numerical study on a sector model, Journal of Petroleum Exploration and Production Technology, 10, 8, 3803-3826.
  • 2. Al-Shalabi E.W., Alameri W., Hassan A.M., 2022, Mechanistic modeling of hybrid low salinity polymer flooding: Role of geochemistry, Journal of Petroleum Science and Engineering, 210, 110013.
  • 3. Al-Shalabi E.W., Ghosh B., 2018, Flow visualization of fingering phenomenon and its impact on waterflood oil recovery, Journal of Petroleum Exploration and Production Technology, 8, 1, 217-228.
  • 4. Cheng B.Y., Li J.J., Li J.Q., Su H., Tang L.H., Yu F.W., Jiang H.Q., 2022, Pore-scale formation damage caused by fracturing fluids in low-permeability sandy conglomerate reservoirs, Journal of Petroleum Science and Engineering, 208, 109301.
  • 5. Dong K.J.,Wang M., Zhang C., 2019, Effect of wettability of ceramic proppant surface in guar gum solution on the oil flow efficiency in fractures, Petroleum, 5, 4, 388-396.
  • 6. Fu M., Huang Q., Gu Y., Xu L., Chen L., 2020, Development of novel silicon-based thickeners for a supercritical CO2 fracturing fluid and study on its rheological and frictional drag behavior, Energy and Fuels, 34, 12, 15752-15762.
  • 7. Fu Y.K., Lu Y., Lai F.P., Li Z.P., 2022, Characterizing the crosslinking process of borate and hydroxypropyl guar gum by diffusing wave spectroscopy, Fuel, 324, 124570.
  • 8. Guo H.Y., Shi S.W., Li G.F., Ji C.J., Fu C.Y., Shen Y., Liu X.L., 2022, Biodegradation of guar gum and its enhancing effect on biogas production from coal, Fuel, 311, 122606.
  • 9. Huang F.F., Pu C.S., Gu X.Y., Ye Z.Q., Khan N., An J., Wu F.P., Liu J., 2021, Study of a low-damage efficient-imbibition fracturing fluid without flowback used for low-pressure tight reservoirs, Energy, 222, 119941.
  • 10. Huang Q.M., Liu S.M., Wang G., Wu B., Yang Y., Liu Y., 2019, Gas sorption and diffusion damages by guar-based fracturing fluid for CBM reservoirs, Fuel, 251, 30-44.
  • 11. Ju S., Huang Q.M., Wang G., Li J., Wang E.M., Qin C.L., Qiao J., 2022, Rheological and morphological characteristics of foam fluid using hydroxypropyl guar and surfactant, Journal of Petroleum Science and Engineering, 211, 110124.
  • 12. Khurshid I., Al-Shalabi E.W., Afgan I., Al-Attar H., 2022, A numerical approach to investigate the impact of acid-asphaltene sludge formation on wormholing during carbonate acidizing, Journal of Energy Resources Technology, 144, 6, 063001.
  • 13. Liu J.W., Wang S.B., Wang C., Zhao F., Lei S., Yi H.Y., Guo J.C., 2020, Influence of nanomaterial morphology of guar-gum fracturing fluid, physical and mechanical properties, Carbohydrate Polymers, 234, 115915.
  • 14. Qiu L.W., Shen Y.D., Wang T., Wang C., 2018, Rheological and fracturing characteristics of a novel sulfonated hydroxypropyl guar gum, International Journal of Biological Macromolecules, 117, 974-982.
  • 15. Qu Z.Q., Wang J.W., Guo T.K., Shen L., Liao H.L., Liu X.Q., Fan J.C., Hao T., 2021, Optimization on fracturing fluid flowback model after hydraulic fracturing in oil well, Journal of Petroleum Science and Engineering, 204, 108703.
  • 16. Reis C., Santos L.V., Santos K.R., Lima-Tenório M.K., Paludo K.S., Maurício M.R., Rubira A.F., Viana A.G., Tenório-Neto E.T., 2022, Chemically crosslinked guar gum hydrogels: An investigation on the water transport and its relationship with hydrocortisone release, International Journal of Pharmaceutics, 617, 121626.
  • 17. Shahidzadeh-Bonn N., Tournié A., Bichon S., Vié P., Rodts S., Faure P., Bertrand F., Azouni A., 2003, Effect of wetting on the dynamics of drainage in porous media, Transport in Porous Media, 56, 2, 209-224.
  • 18. Shao J.X., You L.J., Kang Y.L., Chen M.J., Tian J., 2022, Salinity of flowback fracturing fluid in shale reservoir and its reservoir damage: Experimental and field study, Journal of Petroleum Science and Engineering, 211, 110217.
  • 19. Xu G.Q., Jiang Y., Shi Y., Han Y.J., Wang M.G., Zeng X.H., 2020, Experimental investigations of fracturing fluid flowback and retention under forced imbibition in fossil hydrogen energy development of tight oil based on nuclear magnetic resonance, International Journal of Hydrogen Energy, 45, 24, 13256-13271.
  • 20. Yang X.J., Mao J.C., Zhang H., Zhang Z.Y., Zhao J.Z., 2019, Reutilization of thickener from fracturing flowback fluid based on Gemini cationic surfactant, Fuel, 235, 670-676.
  • 21. You L.J., Xie B.B., Yang J., Kang Y.L., Han H., Wang F.L., Yang B., 2019, Mechanism of fracture damage induced by fracturing fluid flowback in shale gas reservoirs, Natural Gas Industry B, 6, 4, 366-373.
  • 22. Zhang N., You L.J., Kang Y.L., Xu J.M., Li K.M., Cheng Q.Y., Zhou Y., 2022, The investigation into oxidative method to realize zero flowback rate of hydraulic fracturing fluid in shale gas reservoir, Journal of Petroleum Science and Engineering, 209, 109918.
  • 23. Zhang Y.J., Ge H.K., Shen Y.H., McLennan J., Liu D.Q., Li Q.W., Feng D., Jia L.L., 2021, The retention and flowback of fracturing fluid of branch fractures in tight reservoirs, Journal of Petroleum Science and Engineering, 198, 108228.
  • 24. Zhou G., Wang C.M., Liu R.L., Li S.L., Zhang Q.T., Liu Z., Yang W.Y., 2022, Synthesis and characterization of water injection fracturing fluid for wetting and softening coal seam, International Journal of Rock Mechanics and Mining Sciences, 150, 105024.
  • 25. Zhou G., Wang C.M., Wang Q., Xu Y.X., Xing Z.Y., Zhang B.Y., Xu C.C., Experimental study and analysis on physicochemical properties of coal treated with clean fracturing fluid for coal seam water injection, Journal of Industrial and Engineering Chemistry, 108, 356-365.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c726b19d-c7ac-403a-8505-c73e9f8de337
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