BR21881822 "Development of technical solutions for optimization of geological and technical operations during well drilling and oil production at the late stage of field operation"

Relevance

The conducted research will help improve the processes of oil and gas production. New modeling methods will make it possible to more accurately predict oil recovery and reduce well flooding, while an optimized water hammer will increase drilling safety and efficiency. Polymer gels and sodium hypochlorite will help to stabilize production in difficult conditions, and improved polyurethane coatings will extend the service life of the equipment. These solutions will reduce the costs of operation and transportation, ensuring the sustainable development and economic efficiency of the industry.

Purpose

The purpose of the work is to increase the efficiency of oil and gas production, reduce the cost of their extraction, increase the service life of wells and reduce the risk of accidents.

Expected and achieved results

The conducted research will help to significantly improve the processes of oil and gas production in the future. The development of new reservoir pressure modeling methods will make it possible to more accurately predict oil recovery and reduce well flooding, which will increase production efficiency. The optimized water hammer will ensure safer, more economical and more environmentally friendly drilling operations. The use of polymer gels and sodium hypochlorite will help stabilize oil production even in difficult geological conditions such as carbonate and terrigenous reservoirs. The creation of polyurethane coatings with improved performance will extend the service life of the equipment, protecting it from corrosion and chemical attack, which is especially important for underwater and offshore fields. These achievements will help reduce the costs of operation, equipment protection and transportation of hydrocarbons, ensuring the sustainable development and economic efficiency of the oil and gas industry.

Research team members with their identifiers (Scopus Author ID, Researcher ID, ORCID, if available) and links to relevant profiles

1 Scientific supervisor Moldabayeva Gulnaz Zhaksylykovna (moldabaeyva@gmail.com )

2 Responsible executive Bakesheva Aigul Temerbekova aigulm.145@mail.ru

3 Performer Syzdykov Askar Khamzaevich satbayev.university.vrsi@mail.ru

4 Performer Kuldeev Yerzhan Itemenovich kuldeev_erzhan@mail.ru

5 Performer Tuzelbaeva Sholpan Ryskul-bakzy tuzelbayeva.s@gmail.com

6 Performer Shukmanova Anar anar.shukmanova@mail.ru

7 Performer Akhimbayeva Bibinur Serikova bisha-08@mail.ru

8 Performer Ismailova Jamilya Abdulakhatovna djamilya577@gmail.com

9 Performer Delikesheva Dinara Nasipulovna delikesheva@mail.ru

10 Performer Huseynov Iskander Shakhsavanovich iskander.gusenov@mail.ru

List of publications with links to them

1. Moldabayeva G. Z. et al. Study of the Effectiveness of Corrosion Resistance Growth by Application of Layered AlN–TiO2 Coatings //Coatings. – 2024. – Т. 14. – №. 4. – С. 373.
2. Moldabayeva G. Z. et al. Efficiency of using nitride and oxy-nitride coatings for protection against high-temperature oxidation and embrittlement of the surface layer of steel structures //ES Materials & Manufacturing. – 2024. – Т. 24. – С. 1129.
3. Tileuberdi N. et al. Permeability damage induced by low and high molecular weight polymer gels in porous media //Engineered Science. – 2024. – Т. 29. – С. 1092.
4. Tileuberdi N. et al. Challenges of Gel Treatment Application for Conformance Control //Engineered Science. – 2024. – Т. 31. – С. 1238.
5. Yeligbayeva G. et al. Synthesis, Characterization, and Applications of Anticorrosion Polyurethane Coating: The Effect of Bisphenol F //International Journal of Technology. – 2024. – Т. 15. – №. 5.
6. Yeligbayeva G. et al. Polyurethane as a versatile polymer for coating and anti-corrosion applications: A review //Kompleksnoe Ispolzovanie Mineralnogo Syra= Complex use of mineral resources. – 2024. – Т. 331. – №. 4. – С. 21-41.

Patents

1. Авторское свидетельство «Механизм расчета термодинамических показателей для создания усовершенствованной модели прогноза выпадения твердых парафиновых отложений» №49613, Исмаилова Джамилям Абдулахатовна, Молдабаева Гульназ Жаксылыковна, Деликешева Динара Насипуловна, Хусаинова Альфия Рашидовна, Мукаш Абзал Усербайулы

Авторское свидетельство «Защита и надежность магистральных газопроводов: проблемы и пути решения» №49654, Бакешева Айгуль Темербековна