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Investigation of Physicochemical Properties of Initial Components for Polyelectrolyte Complex – Reagent for Oil and Gas Production

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Chemistry and Technology of Fuels and Oils Aims and scope

The physicochemical properties of the initial components, poly-N,N-dimethyl-N,N-diallylammonium chloride, lignosulfonate, and polyelectrolyte complexes based on them, were studied. Optimal conditions and initial compounds were selected for polymerization of poly-N,N-dimethyl-N,N-diallylammonium chloride. The experiments were modeled with the STATISTICA 13 software package. The results from determination of the particle size of the samples of poly-N,N-dimethyl-N,N-diallylammonium chloride by laser diffraction are presented. Comparative analysis was made of the composition of the functional groups by means of the IR spectra of lignosulfonate sulfite and neutral sulfite methods of cellulose production A comparative analysis of the composition of the functional groups based on the IR spectra of lignosulfonate in the sulfite and neutral-sulfite method of cellulose production was undertaken. Potentiometric titration was used to study possible complexation of the lignosulfonate with Fe(77) ions and a polyelectrolyte complex based on modified lignosulfonate and poly-N,N-dimethyl-N,N-diallylammonium chloride. The effect of samples of the obtained polyelectrolyte complex on the filtration properties of drilling mud under aggressive temperature conditions was studied.

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References

  1. R. R. Daminev, R. N. Asfandiyarov, R N. Fatkullin, et al., Neftegazovoe Delo, No. 6,431-442 (2015).

  2. M. M. Iovleva, Vysokomol. Soed., 34, No. 3,17-24 (1992).

    CAS  Google Scholar 

  3. A. D. Badikova, I. N. Kulyashova, M. A. Tsadkin, Chemistry and Technology of Fuels and Oils, 52, No. 6,656-662 (2017).

    Article  CAS  Google Scholar 

  4. Y. Qian, L. Zhou, W. Liu, Prog. Org. Coat.. 138,105354 (2020).

    Article  CAS  Google Scholar 

  5. G A. Teptereva, I. N. Kulyashova, L. IUL Asfandiyarov, et al.,Neftegazovoe Delo, No. 3 91-115 (2015).

  6. V. F. Kurenkov, S. V. Snegirev, Flocculent Properties of Polymers [in Russian], Kazan Gos Tekhnol. Un-t, Kazan (2000), 32 pp.

    Google Scholar 

  7. N. M. Boyarkina, V. V. Kryuchkov, E. S. Parkhamovich, et al., Plasticheskie Massy, No. 8,17-19 (1987).

  8. A. B. Zezin, V. A. Kabanov, Uspekhi Khimii, LI, No. 9,1447-1482 (1982).

  9. L. I. Kalimullin, A. A. Islamutdinova. R IL Daminev, Bashkirskii Khimicheskii Zhurnal, 21, No. 2,79-81 (2014).

  10. Yu. V. Voronov, S. V. Yakovlev, Wastewater Disposal and Treatment [in Russian], Izd. Assotsiatsiya Stroitel’nykh Vuzov, Moscow (2006), 704 pp.

    Google Scholar 

  11. RF Patent. 2450027.

  12. GOST 18249-72. Plastics. Method of Determination of Viscosity of Dilute Solutions of Polymers [in Russian].

  13. R. A. Fedina, A. D. Badikova, A. G Mustafin, et al., Bashkirskii Thimicheskii Zhurnal, 26, No. 1,62-69 (2019).

  14. R. A. Fedina, in: Application of STATISTICA Seaward for Optimization of Technology for Production of a Sulfonated Reagent. Proceedings of X International Scientific and Practical Conference (2020) [in Russian], pp. 95-96.

  15. GOST 10028-81. Glass Capillary Viscosimeters, Technical Conditions [in Russian].

  16. I. Dehant, it Danz, W. Kimmer, et al., Infrared Spectroscopy of Polymers, Khimiya, Moscow (1976), 472 pp.

  17. A. N. Yarov, B. A. Sternik, Hydrolysis and Wood-Chemical Industry, No. 5,10-11 (1974).

  18. A. D. Badikova, G. A. Teptereva, I. N. Kulyashova, et al., Improving the Production of Chrome Lignosulfonate Drilling Reagents [in Russian], RITs BashGU, Ufa (2015), 108 pp.

    Google Scholar 

  19. I. N. Kulyashova, G. A. Teptereva, G. V. Konisev, et al., Neftegazovoe Delo, No. 1 406-425 (2015).

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Authors and Affiliations

  1. Gumilyov Eurasian National University, Nur-Sultan, Kazakhstan

    R. S. Begalieva & Zh. E. Dzhakupova

  2. Ufa State Petroleum Technological University, Ufa, Russia

    I. N. Kulyashova & A. D. Badikova

  3. Bashkir State University, Ufa, Russia

    A. G. Mustafin

Authors
  1. R. S. Begalieva
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  2. I. N. Kulyashova
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  3. Zh. E. Dzhakupova
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  4. A. D. Badikova
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  5. A. G. Mustafin
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Corresponding author

Correspondence to R. S. Begalieva.

Additional information

Translated from Khimiya i Tekhnologiya Topliv i Masel, No. 6, pp. 22 — 27, November-December, 2020.

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Begalieva, R.S., Kulyashova, I.N., Dzhakupova, Z.E. et al. Investigation of Physicochemical Properties of Initial Components for Polyelectrolyte Complex – Reagent for Oil and Gas Production. Chem Technol Fuels Oils 56, 889–897 (2021). https://doi.org/10.1007/s10553-021-01205-2

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  • DOI: https://doi.org/10.1007/s10553-021-01205-2

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