top of page
ХЕДДЕР-АНГЛ-новый.jpg

Neftyanaya Provintsiya

No.2(22),2020

SPECTROPHOTOMETRY AS A METHOD OF SELECTION OF ACIDIC COMPOSITIONS FOR WELL STIMULATION

A.A. Rybakov, V.D. Zimin, N.N. Sadykov

DOI: https://doi.org/10.25689/NP.2020.2.95-105

PP.95-105

Download article

Adobe_PDF_Icon.png
Abstract
References

Abstract

Aim of this work is increase accuracy of selection of formulations of acid compositions during acid treatments of bottom-hole zones of terrigenous reservoirs of producing wells by applying spectrophotometry method to assessing the quality of acid emulsions obtained.

Methodology for selecting necessary acid composition for processing bottom-hole zone of a producing well consists in an integrated approach and need for spectrophotometry. Before carrying out acid treatment, oil samples are taken from the candidate well. Further, in laboratory conditions, acid compositions of various concentrations are prepared, which form acid emulsions based on selected oil. A solution in toluene is prepared with initial oil and resulting acid compositions for further optical studies on a spectrophotometer with determination of optical density at various wavelengths. Mathematically, light absorption coefficient is calculated, graphical dependences on radiation wavelength are constructed, and a conclusion is drawn on possibility of using studied acid compositions.

Key words:

optical methods, spectrophotometry, acidic composition, acid emulsions, well stimulation, asphaltenes

References

 

  1. V.S. Rudoy, S.A. Zhdanov Metody povysheniya effektivnosti razrabotki plastov s trudnoizvlekaemymi zapasami [Methods of improving unconventional reservoir management]. Moscow: VNIINEFT Publ, 2007, 182 p (in Russian) 

  2. M.A. Silin, L.A. Magadova, L.F. Davletshin, O.F. Efanova Stimulyaciya terrigennyh kollektorov po mezhtrubnomu prostranstvu dobyvayushchih skvazhin [Terrigenous reservoir stimulation via production well annulus]. Neftepromyslovoye delo, 2012, No.7, pp.27-30 (in Russian)  

  3. M.S. Orlov, D.G. Petrakov Dinamika izmeneniya reologicheskih svojstv vysokovyazkoj nefti pri kompleksnoj kislotnoj obrabotke terrigennogo plasta [Heavy oil rheology changing during terrigenous reservoir acidizing]. International research journal, 2015, No.4, pp.68-72  (in Russian)

  4. L.F. Davletshina, L.I. Tolstykh, P.S. Mikhailova O neobhodimosti izucheniya osobennostej povedeniya uglevodorodov dlya povysheniya effektivnosti kislotnyh obrabotok skvazhi [On importance of hydrocarbon behavior studying to improve well acidizing]. Territoriya neftegaz, 2016, No.4, pp.90-96 (in Russian)

  5.  Sheu, E., Y. Long, H. Hamza Asphaltene self-association and precipitation in solvents-AC conductivity measurements. Heavy Oils and Petroleomics, Springer Publ, 2007, pp.259-278. (in English)

  6. O’Neil, B, Maley Prevention of acid-induced asphaltene precipitation: a comparison of anionic vs. cationic surfactants. Soc. Petrol. Eng, 2015, V. 54(1), pp. 49-50 (in English)

  7. M. Rietjens, M. Mieuwpoort Acid-sludge: How small particles can make a big impact. The Hague, SPE European Formation Damage Conference, 1999. Available at: https://www.onepetro.org/ (in English)

  8. M. Rietjens, Menno van Haasterecht Phase transport of HCl, HFeCl4, water and crude oil components in acid/crude oil systems. Journal of Colloid and Interface Science, 2003, V. 268(2), pp. 489-500 (in English)

  9. T. AlMubarak, M. AlKhaldi, S. Aramco Investigation of acid-induced emulsion and asphaltene precipitation in low permeability carbonate reservoirs. Soc. Petrol. Eng., 2015. Available at: https://www.onepetro.org/ (in English)

  10.  E.W. Moore, C.W. Crowe, A.R. Hendrickson Formation, Effect and Prevention of Asphaltene Sludges During Stimulation Treatments. J Pet Technol, 1965, V.19(9), 1024 p (in English)

  11.  I.A. Guskova, A.A. Rybakov, V.D. Zimin, N.N. Sadykov  Sposob podbora kislotnogo sostava dlya intensifikacii dobychi nefti [Selection of acid system for oil well stimulation]. RF Patent No.2663417. Patent applicant and owner: Almetyevsk State Petroleum Institute. (in Russian)

  12. N.G. Ibragimov, I.A. Guskova, R.R. Ibatullin, A.R. Rakhmanov, A.T. Gabdrakhmanov Sposob razrabotki neftyanoj zalezhi [Oil recovery method]. RF Patent No.2429343. Patent applicant and owner: PJSC TATNEFT (in Russian)

  13. N.G. Ibragimov, V.P. Tronov, I.A. Guskova Teoriya i praktika metodov bor'by s organicheskimi otlozheniyami na pozdnej stadii razrabotki neftyanyh mestorozhdenij [Theory and practice of scale control in mature fields]. Moscow: Neftyanoye khozyaistvo, 2010, 240 p (in Russian)

  14. I.A. Guskova, L.F. Davletshina, A.A. Rybakov Podbor kislotnogo sostava dlya obrabotki plastov po mezhtrubnomu prostranstvu s pomoshch'yu koltyubingovoj ustanovki [Selection of acid system for reservoir stimulation via the annulus using coil-tubing unit]. Almetyevsk State Petroleum Institute, PJSC TATNEFT. (in Russian)

Authors

A.A. Rybakov, PhD, Senior Lecturer, SBEI HE Almetyevsk State Oil Institute

2, Lenin st., Almetyevsk, 423450, Russian Federation

E-mail: r.akram@inbox.ru

 

V.D. Zimin, graduate student, SBEI HE Almetyevsk State Oil Institute

2, Lenin st., Almetyevsk, 423450, Russian Federation

E-mail: zimin9404@mail.ru

 

N.N. Sadykov, graduate student, SBEI HE Almetyevsk State Oil Institute

2, Lenin st., Almetyevsk, 423450, Russian Federation

E-mail: www.nazir1994@mail.ru">www.nazir1994@mail.ru

For citation:

 

A.A. Rybakov, V.D. Zimin, N.N. Sadykov Spektrofotometrija kak metod podbora kislotnyh sostavov dlja intensifikacii dobychi [Spectrophotometry as a method of selection of acidic compositions for well stimulation]. Neftyanaya Provintsiya, No. 2(22), 2020. pp.95-105. DOI https://doi.org/10.25689/NP.2020.2.95-105 (in Russian)

Key words
Authors
For citation

   © A.A. Rybakov, V.D. Zimin, N.N. Sadykov, 2020

       This is an open access article under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)

bottom of page