A complex study was carried out on compositions containing pseudo-dimeric surfactants. Rheological and oscillation studies along with proppant testing (proppant drop rate and static proppant settling) were carried out. The effect of the composition on clay swelling was determined. Advantages were found for hydraulic fracturing fluids containing pseudo-dimeric surfactants.
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References
M. A. Silin, et al., A Polymer-Free Process Fluid for Hydraulic Fracturing Based on Viscoelastic Surfactants [in Russian].
S. Liu, et al., RSC Advances. Royal Society of Chemistry, 11, No. 37, 22517-22529 (2021).
X. Cao, et al., ACS Omega. American Chemical Society, 6, No. 39, 25421-25429 (2021).
W. Zhang, et al., Chemical Engineering Science, 207, 688-701 (2019).
Z. H. Chieng, et al., Polymers, 12, No. 7, 1-19 (2020).
Z. Li, et al., Journal of Petroleum Science and Engineering, 205, 108844 (2021).
L. Fu, et al., Journal of Petroleum Science and Engineering, 179, 958-965 (2019).
Z. Tariq, et al., Journal of Petroleum Science and Engineering, 195, 107917 (2020).
J. Mao, et al., Journal of Industrial and Engineering Chemistry, 60, 133-142 (2018).
X. Yang, et al., Journal of Surfactants and Detergents, 21, No. 4, 467-474 (2018).
C. Yang, et al., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 523, 62-70 (2017).
J. Mao, et al., Journal of Petroleum Science and Engineering, 164, 189-195 (2018).
N. R. Agrawal, et al., Langmuir. American Chemical Society, 35, No. 39, 12782-12791 (2019).
K. Morishima, et al., Langmuir, 33, No. 24, 6084-6091 (2017).
T. Xu, et al., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 611 (2021).
W. Zhang, et al., Polymers, 10, No. 11 (2018).
J. Mao, et al., Journal of Molecular Liquids, 346, 117889 (2022).
Z. Li, et al., Energy and Fuels, 35, No. 4, 3130-3139 (2021).
W. Kang, et al., Soft Matter, 14, No. 22, 4445-4452 (2018).
W. Kang, et al., Soft Matter, 15, No. 15, 3160-3167 (2019).
C. Chen, et al., Journal of Molecular Liquids, 296 (2019).
W. Kang, et al., Journal of Molecular Liquids, 286 (2019).
P. Wang, et al., Journal of Molecular Liquids, 286, 110935 (2019).
ISO 13503-1:2011, Petroleum and Natural Gas Industries. Completion Fluids and Materials. Part I: Measurement of Viscous Properties of Completion Fluids.
S. E Anachkov, et al., Langmuir. American Chemical Society, 34, No. 16, 4897-4907 (2018).
W. Zhang et al., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 584 (2020).
M. Cun, Colloids and Surface A: Physicochemical and Engineering Aspects, 617 (2021).
K. F. Zhigach and A. N. Yarov, “Evaluation of Clay Swelling” [in Russian], Izvestiya VUZov. Neft’ i Gaz, No. 10, 13-18 (1959).
STO Gazprom 2-3. 2-020-2005, Drilling Solutions. Procedure for Measuring the Swelling Coefficient of Clays and Clay Rocks [in Russian].
S. Alzobaidi, et al., Journal of Colloid and Interface Science, 488, 79-91 (2017).
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Translated from Khimiya i Tekhnologiya Topliv i Masel, No. 4, pp. 43–48 July –August, 2022.
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Silin, M.A., Magadova, L.A., Malkin, D.N. et al. Complex Study of a Hydraulic Fracturing Fluid with a Pseudo-Dimeric Surfactant. Chem Technol Fuels Oils 58, 620–627 (2022). https://doi.org/10.1007/s10553-022-01428-x
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DOI: https://doi.org/10.1007/s10553-022-01428-x