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Study of the applicability of foam for steam conformance control to conditions of the Karazhanbas field

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1. Title Title of document Study of the applicability of foam for steam conformance control to conditions of the Karazhanbas field
2. Creator Author's name, affiliation, country Askhat A. Yessetzhanov; Engineering LLP KazNIPImunaygas; Kazakhstan
2. Creator Author's name, affiliation, country Amandyk K. Zhailybay; Engineering LLP KazNIPImunaygas; Kazakhstan
2. Creator Author's name, affiliation, country Olga B. Sayenko; Engineering LLP KazNIPImunaygas; Kazakhstan
2. Creator Author's name, affiliation, country Marat S. Sagyndikov; Engineering LLP KazNIPImunaygas; Kazakhstan
3. Subject Discipline(s)
3. Subject Keyword(s) surfactant; oil displacement ratio; resistance factor; filtration studies; steam foam
4. Description Abstract

Thermal enhanced oil recovery methods are a traditional approach in the primary and secondary development of heavy oil fields. Despite the effectiveness of such methods, there are breakthroughs of working fluid into production wells due to the presence of high permeability channels, resulting in a sharp increase in the watercut and an increase in the bottom hole temperature.

The article presents a literature review of the world experience in application of various steam conformance control methods. Based on the literature review, the applicability of foam systems at the Karazhanbas field was studied; core flood experiments were carried out to determine resistance factor and displacement efficiency. Obtained results confirm the formation of foam in reservoir conditions by increase in injection resistance during its filtration through core sample and visually at the outlet, the increase in displacement efficiency was 17,41%. The scientific novelty of the work lies in the study of the applicability of steam conformance control technology based on foam, which has not been previously studied and tested at any field in Kazakhstan.
5. Publisher Organizing agency, location KMG Engineering
6. Contributor Sponsor(s)
7. Date (DD-MM-YYYY) 20.07.2022
8. Type Status & genre Peer-reviewed Article
8. Type Type Research Article
9. Format File format
10. Identifier Uniform Resource Identifier https://vestnik-ngo.kz/2707-4226/article/view/108465
10. Identifier Digital Object Identifier (DOI) 10.54859/kjogi108465
10. Identifier Digital Object Identifier (DOI) (PDF (Rus)) 10.54859/kjogi108465-81993
11. Source Title; vol., no. (year) Kazakhstan journal for oil & gas industry; Vol 4, No 2 (2022)
12. Language English=en ru
13. Relation Supp. Files Figure 1. Maps of current sampling and isotherms of the selected area (167KB) doi: 10.54859/kjogi108465-65497
Figure 2. Well logging tablets determination of well injectivity/inflow profile. K-3 and K-4 (240KB) doi: 10.54859/kjogi108465-65498
Figure 3. Dynamics of technological indicators of the site (177KB) doi: 10.54859/kjogi108465-65499
Figure 4. Photo of the PIK-OFP-FD installation (191KB) doi: 10.54859/kjogi108465-65500
Figure 5. Hydraulic scheme of the PIK-OFP-FD unit (155KB) doi: 10.54859/kjogi108465-65501
Figure 6. Foam output from Sample No. 82 (77KB) doi: 10.54859/kjogi108465-65502
Figure 7. Graph of change in pressure drop from the volume of injection of the working agent (123KB) doi: 10.54859/kjogi108465-65503
Figure 8. Foam output from composite sample No. 172, 174, 179 (77KB) doi: 10.54859/kjogi108465-65504
Figure 9. Oil displacement process using foam surfactant on a composite sample (No. 172,174,179) (165KB) doi: 10.54859/kjogi108465-65505
14. Coverage Geo-spatial location, chronological period, research sample (gender, age, etc.)
15. Rights Copyright and permissions Copyright (c) 2022 Yessetzhanov A.A., Zhailybay A.K., Sayenko O.B., Sagyndikov M.S.
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