Advances in effective utilization of fracturing flowback fluids, Part I: Direct reuse technology
DOI:
https://doi.org/10.62813/see.2024.01.02Abstract
Reusing fracturing flowback fluid to reduce costs has always been a key area of the petroleum industrial interests. The slick water or gel fracturing flowback fluid used in hydraulic fracturing often contains a large amount of undegraded or partially degraded polymers, various salts, oil and solids dissolved from the formation, etc., which cause great trouble for the treatment and reuse of flowback fluid. This review presents the development status of fracturing flowback reuse technology from the aspects of fluid composition characteristics, its effects on reuse, and direct reuse technology, including several new fracturing fluid thickening agents that do not need costly desalination treatment, aiming to facilitate water resources management in unconventional oil and gas development.
References
Al-Arnous, A., Al-Qahtani, N., Al-Sugair, B., et al., 2018, April. Optimization of water consumption of hydraulic fracturing treatment by utilizing recycled flowback fluids. In SPE Kingdom of Saudi Arabia Annual Technical Symposium and Exhibition. SPE-192303-MS.
Alkhowaildi, M.A., Mahmoud, M., Bataweel, M.A., et al., 2021, December. A comprehensive review on the characteristics, challenges and reuse opportunities associated with produced water in fracturing operations. In Abu Dhabi International Petroleum Exhibition & Conference. SPE-207835-MS.
Chen, X., Lu, Y., Wu, Y., et al., 2021. Analysis of policy and enlightenment on treatment of fracturing fluid in shale gas production between China and the United States. Journal of Southwest Petroleum University (Science & Technology Edition), 43(05), 212-219. (In Chinese).
Chen, Y., Liu, Y., Zuo, T., et al., 2023. Performance evaluation and field application of NHC environment-friendly clean fracturing fluid. Environmental Protection of Oil & Gas Fields, 33(04), 35-39+45. (In Chinese).
Cui, B. and Liu, Y., 2016. Indoor research on recycling low molecular weight sweet bean gum fracturing fluid. Inner Mongolia Petrochemical Industry, 42 (10), 32-35. (In Chinese).
EIA, 2024. U.S. Energy Information Administration. Available at: https://www.eia.gov/tools/faqs/ [Accessed 25 June, 2024].
Ellafi, A., Jabbari, H., Tomomewo, O.S., et al., 2020, September. Future of hydraulic fracturing application in terms of water management and environmental issues: A critical review. In SPE Canada Unconventional Resources Conference. SPE-199993-MS.
Fan, Q., Fan, Q., Fan, W., et al., 2018. Application of CQ-RP140 recyclable low-polymer fracturing fluid at Changqing Gas Field. Drilling & Production Technology, 41(04), 117-119. (In Chinese).
Ferguson, M.L., Anderson, C.C., Eichelberger, P.B., et al., 2013, April. Improved performance and greater flexibility in recycling highly mineralized produced brines. In SPE Unconventional Resources Conference-USA. SPE-164535-MS.
Fu, W., Feng, S., Wei, W., et al., 2018. Performance evaluation and field applicant of the flowback-fluid oil displacing system of clean fracturing fluid. Petroleum Geology & Oilfield Development in Daqing, 37 (03), 114-119. (In Chinese).
Gaudlip, A.W., Paugh, L.O., Hayes, T.D., 2008, November. Marcellus shale water management challenges in Pennsylvania. In SPE Shale Gas Production Conference. SPE-119898-MS.
Guan, B., Liu, Y., Liang, L., 2017a, October. Present situation and development of fracturing return drainage recycling. In National Natural Gas Academic Annual Conference. 1559-1570.
Guan, B., Liu, Y., Liang, L., et al., 2017b. Research and development on thickener for fracturing fluid prepared by coalbed methane flowback water and application. Coal Science and Technology, 45 (06), 90-94. (In Chinese).
Guan, B., Wang, Y., He, Z., et al., 2006. Development of CJ2-3 type recoverable low molecular mass guar gum fracturing fluid. Oilfield Chemistry, 1, 27-31. (In Chinese).
Guo, X., 2016. Comparison research of guanidine gum fracturing fluid and EM30 fracturing fluid. Modern Chemical Research, (09), 9-10. (In Chinese).
Gupta, D.V.S. and Hlidek, B.T., 2009. Frac-fluid recycling and water conservation: A case history. SPE Production & Operations, 25 (01), 65-69.
Haghshenas, A. and Nasr-El-Din, H.A., 2014, May. Effect of dissolved solids on reuse of produced water in hydraulic fracturing jobs. In SPE Latin America and Caribbean Petroleum Engineering Conference. SPE-169408-MS.
Horner, P., Halldorson, B., Slutz, J., 2011, October. Shale gas water treatment value chain - A review of technologies, including case studies. In SPE Annual Technical Conference and Exhibition. SPE-147264-MS.
Jia, J., Chen, L., Zhang, L., 2020. Study on and application of drilling fluids formulated with fracturing flowback fluids in Longdong, Changqing Oil Field. Drilling Fluid & Completion Fluid, 37 (05), 631-637. (In Chinese).
Kakadjian, S., Thompson, J., Torres, R., et al., 2015, March. Permian frac systems using produced water. In SPE Middle East Oil & Gas Show and Conference. SPE-172811-MS.
Kohshour, I. O., Leshchyshyn, T., Munro, J., et al., 2016, August. Examination of water management challenges and solutions in shale resource development - Could waterless fracturing technologies work? In SPE/AAPG/SEG Unconventional Resources Technology Conference. URTEC-2461040-MS.
Kolla, H., Watson, P., Patel, A., et al., 2013, March. Friction reducers as water management aids in hydraulic fracturing. In SPE Production and Operations Symposium. SPE-164493-MS.
Lei, Q., Weng, D., Guan, B., et al., 2023. Shale oil and gas exploitation in China: Technical comparison with US and development suggestions. Petroleum Exploration and Development, 50, 944-954. (In Chinese).
Li, G., Lei, Z., Dong, W., et al., 2022. Progress, challenges and prospects of unconventional oil and gas development of CNPC. China Petroleum Exploration, 27 (01), 1-11. (In Chinese).
Li, Q., Zhang, J., Li, S., et al., 2011. Research on the reutilization of hydroxypropyl guanidine gum fracturing fluid. Journal of Xi'an Shiyou University (Natural Science Edition), 26 (05), 60-63+77+116-117. (In Chinese).
Li, X., Ding, L., Li, N., et al., 2016. Research of recyclable fracturing fluid systems EM50 and its field experiment in Sulige Gas Field. Speciality Petrochemicals, 33 (05), 19-23. (In Chinese).
Liu, L., Chen, J., Liu, T., et al., 2015. Study on reuse of fracturing fluid in oil and gas fields in Northeast China. Drilling Fluid & Completion Fluid, 32 (04), 92-95+111-112. (In Chinese).
Liu, Y., Yang, J., Wang, D., et al., 2020. Evaluation of influencing factors on imbibition oil displacement effect of clean fracturing fluid flowback fluid. Fault-Block Oil & Gas Field, 27 (05), 666-670. (In Chinese).
Lyu, N., Liu, K., Gao, Y., 2018. Development and application of oil-displacing recoverable clean fracturing fluid. Oilfield Chemistry, 35(03), 395-400. (In Chinese).
Ming, H., Zhai, W., Fan, Y., et al., 2016. Preparation and application of modified biopolymer fracturing fluid. Drilling Fluid & Completion Fluid, 33 (02), 117-121. (In Chinese).
Mohan, A.M., Gregory, K.B., Vidic, R.D., et al., 2011, October. Characterization of microbial diversity in treated and untreated flowback water impoundments from gas fracturing operations. In SPE Annual Technical Conference and Exhibition. SPE-147414-MS.
Monroe, S., McCracken, D., Dawson, K., et al., 2013, September. Production gains through reuse of frac fluids for hydraulic fracturing: A 10-year study. In SPE Annual Technical Conference and Exhibition. SPE-166124-MS.
Pu, Z., Yu, W., Li, J., et al., 2014. Development and testing of reusable fracturing fluid system. Drilling & Production Technology, 37 (01), 91-94. (In Chinese).
Shan, S., Lyu, X., Gu, Z., et al., 2016. The research and application of new recoverable fracturing fluid used in Jingbian Gas Field. Science Technology and Engineering, 16(28), 185-189. (In Chinese).
Vasiliu, C.C., Pierce, D., Bertrand, K., 2012, September. Challenging wastewater treatment. In International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production. SPE-157615-MS.
Walters, H.G., Stegent, N., Harris, P.C., 2009, January. New frac fluid provides excellent proppant transport and high conductivity. In SPE Hydraulic Fracturing Technology Conference. SPE-119380-MS.
Wang, B., Wang, P., Zhu, W., et al., 2020. On the organic pollutants and molecular weight distribution in the HFFW of shale gas in Sichuan. Journal of Safety and Environment, 20 (01), 231-237. (In Chinese).
Wang, C., Huang, H., Guan, X., 2019. Comprehensive recovery and utilization technology of fracturing fluid. Energy Conservation in Petroleum & Petrochemical Industry, 9 (02), 27-29+33. (In Chinese).
Wang, G., Liao, L., Guo, Y., 2016. The development and applicant of a recyclable clear fracturing fluid. Drilling Fluid & Completion Fluid, 33 (06), 101-105. (In Chinese).
Wang, G., Yuwen, X., Ye, F., 2018a. Applicability evaluation of new surfactant fracturing fluid for multi-type flowback fluid. Petrochemical Industry Application, 37(05), 62-65+80. (In Chinese).
Wang, G., Gao, Y., Liu, G., 2018b. Study on fracturing fluid prepared by coal mine water. Drilling & Production Technology, 41(05), 89-91. (In Chinese).
Wang, S., Min, Q., Dong, S., et al., 2017a. Development of RP120 recyclable fracturing fluid system and its field test. Drilling & Production Technology, 40 (05), 95-97+114. (In Chinese).
Wang, S., Wang, X., Xu, W., 2017b. Development and application of RP120 recyclable fracturing fluid. In Petroleum Science and Technology Forum, 36 (S1), 141-144+200. (In Chinese).
Xu, F. Li, J., Ma, Y., et al., 2008. Fracturing fluid technology of low molecular weight and environmental protection development & appliance. Environmental Protection of Oil & Gas Fields, 01, 8-10+59. (In Chinese).
Yang, D. and Wu, J., 2018. Recovery and treatment technology of EM50 waste fracturing fluid and its application. Yunnan Chemical Technology, 45 (10), 156-157. (In Chinese).
Yin, G., Zhang, S., Wang, L., et al., 2014. Development of recoverable guar gum fracturing fluid slowly-releasing breaker. Petrochemical Industry Application, 33 (09), 108-111. (In Chinese).
Yuan, C., Pan, Y., Du, C., et al., 2016. Quality index of water for recycling flowback fluid of guar gum fracturing fluid in Shengli Oil Field. Drilling Fluid & Completion Fluid, 33 (05), 109-113. (In Chinese).
Yun, J., Zhang, H., Ma, X., et al., 2023. Optimization and application of treatment technology for guanidine gum fracturing flowback fluid in deep coalbed methane wells. Acta Petrolei Sinica, 44 (11), 1959-1973. (In Chinese).
Zhang, H., Wang, J., Zhao, J., et al., 2020. Study on recycle and reuse technology of fracturing backflow in tight gas. Petrochemical Industry Application, 39 (06), 37-41. (In Chinese).
Zhang, K., Zhang, L., Liu, D., 2022. Situation of China’s oil and gas exploration and development in recent years and relevant suggestions. Acta Petrolei Sinica, 43(01), 15-28+111. (In Chinese).
Zhou, W., Xie, W., He, F., et al., 2015. Research and application of fracturing fluid recovery technology. Chemical Engineering & Equipment, (02), 64-66. (In Chinese).
Zhu, T., Xue, Z., Niu, W., et al., 2019a. Water quality characteristics and treatment status of hydraulic fracturing effluent during shale gas exploitation in China and the United States. Environmental Protection of Oil & Gas Fields, 29 (05), 65-70+78. (In Chinese).
Zhu, W., Ge F., Han, X., et al., 2019b. Analysis on characteristics of fracturing flowback fluid of a waste liquid site in Shengli Oil Field. Environmental Engineering, 37 (12), 132-136. (In Chinese).
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