НЕФТЯНАЯ ПРОВИНЦИЯ
рецензируемое научное издание сетевого распространения
ISSN 2412-8910 (Online)
Neftyanaya Provintsiya
No.4(28),2021, Part 2
The primary gas-bearing horizon opening experience With afron-containing drilling fluid in the well construction on shelf
R.U. Rabaev
PP.435-453
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Abstract
The article presents the experimental work results of chemical reagents selection the development of an afron-containing drilling fluid composition for the primary gas productive horizon opening with abnormally low reservoir pressures (ALPP). As the world practice has shown, aphron systems of drilling fluids allow at the lowest cost, in comparison with traditional technologies, to solve such problems as: circulation losses, the occurrence of sticking, irreversible clogging and damage to filtration channels by deeply penetrating particles of drilling mud and its filtrate.
The descriptions of aphrons behavior mechanism, the composition and based on aphrons fluids properties, as well as the results of field work on the use of drilling fluids based on aphrons are given.
Key words:
aphrons, aphron-containing drilling mud, bottomhole formation zone, colmatation screen, inhibition, destruction of biopolymers, rheological parameters, bactericides, geological complication
References
-
Rabaev, R.U. Sultanov Sh.Kh., Chibisov A.V. Aktualnye problemy osvoeniya melkikh gazovykh i gazokondensatnykh mestorozhdeniy na shelfe yuzhnykh morey Rossii [Current problems of development of shallow gas and gas condensate fields on Russia’s southern offshore]. Proc. of X Intl Conference for young researches “Knowledge-Intensive Technologies for Oil and Gas Production”, Ufa, 5-10 Oct, 2020. Ufa: Bashkir State University Publ., 2020. pp. 83-86 (in Russian)
-
Rabaev, R.U., Smurygin Sh.Kh., Sultanov Sh.Kh. et al. Obosnovanie i rezultaty primeneniya kompleksnoy tekhnologii intensifikatsii dobychi gaza iz karbonatno-terrigennykh plastov morskogo shelfa [Justification and application results of complex technology to stimulate gas production from offshore carbonate-terrigenous formations]. Neft. Gas. Novacii [Oil. Gas. Innovations], 2021, No. 3(244). pp. 62-69. (in Russian)
-
Sebba F. Colloidal Gas Aphrons. J.Wiley & Sons, N.Y. 1987.
-
MacPhail, W.F., Cooper, R.C., Brookey, T., Paradis, J. (2008.): Adopting Aphron Fluid Technology for Completion and Workover Applications, SPE paper 112439 presented at the 2008 SPE Intl Symposium and Exhibition on Formation Damage Control. Lafayette, Louisiana, U.S.A., 13-15 February.
-
Growcock, F.B., Belkin, A., Fosdick, M., Irving, M., O´Connor, B., Brookey, T. (2006.): Recent Advances in Aphron Drilling Fluids, IADC/SPE paper 97982 presented at the IADC/SPE Drilling Conference. Miami, Florida, U.S.A., 21-23 February.
-
Growcock, F.B., Belkin, A., Fosdick, M., Irving, M., O´Connor, B., Brookey, T. (2007.): Recent Advances in Aphron Drilling Fluids Technology, SPE Drilling & Completion, June.
-
Kudinov V.I., Suchkov B.M. Metody povysheniya proizvoditelnosti skvazhin [Methods to improve well deliverability]. Samara, 1996. 411 p. (in Russian)
-
Tikhomirov V.K. Peny Teoriya i praktika ih polucheniya i razrusheniya [Foams. Theory and practice of generation and breaking]. Moscow: Khimiya Publ., 1975. 264 p. (in Russian)
-
Deryagin B.V. Teoriya ustoichivosti kolloidov i tonkikh plenok [Theory of stability of colloids and thin films]. Moscow: Nauka Publ., 1986. 203 p. (in Russian)
-
Deryagin B.V., Churaev N.V., Muller V.M. Poverkhnostnye sily [Surface forces]. Moscow: Nauka Publ., 1985. 396p. (in Russian)
Authors
R.U. Rabaev, Ph.D., Head of oil and gas engineering, Ufa State Petroleum Technical University
1, Kosmonavtov st., Ufa, 450062, Russian Federation
E-mail: rabaevru@rusoil.net
For citation:
R.U. Rabaev Opyt pervichnogo vskrytija gazonosnogo gorizonta s afronsoderzhashhim burovym rastvorom pri stroitel'stve skvazhiny na shel'fe [The primary gas-bearing horizon opening experience With afron-containing drilling fluid in the well construction on shelf]. Neftyanaya Provintsiya, No. 4(28), Part 2, 2021. pp. 435-453. DOI https://doi.org/10.25689/NP.2021.3.435-453 (in Russian)