Review of methods for assessing the quality of gas inflow stimulation works at the final stage of field development to improve the efficiency of the construction process

Valery Chejmatova; Yuriy Vaganov

doi:10.20397/2177-6652/2023.v23i3.2720

Autores

Valery Chejmatova Tyumen Industrial University
Yuriy Vaganov Tyumen Industrial University

DOI:

https://doi.org/10.20397/2177-6652/2023.v23i3.2720

Palavras-chave:

Wells, Management, Drilling works, Development, Economy

Resumo

The current state of Russia’s gas industry (in particular, in the north of the West Siberian region, where there are numerous deposits) is characterized by depreciation of the technical base of enterprises, depletion of the largest old fields, reduction of gas inflow intensification, and the appearance of many hard-to-recover reserves. All this requires an assessment of the quality of drilling operations during well construction, which should also consider the stages of field development.

The purpose of the work is to review the methods of quality assessment of gas inflow stimulation works at the final stage of field development to improve the efficiency of the construction process. Based on the conducted review, the authors propose their integrated approach to the quality assessment of inflow stimulation works, which provides interrelated performance assessments. Regional socio-economic risks of field development completion at the final stage are outlined.

Referências

Bezpalov, V., Goncharenko, L., Fedyunin, D., Lochan, S., & Avtonomova, S. (2023). Developing a model of work duration under the influence of risk events in the implementation of life cycle contracts for large energy construction projects. Journal of Infrastructure, Policy and Development, 7(3), 1946.

Busakhin, A. (2023). Autonomous gasification of the regions of the Russian Federation. Journal of Management & Technology, 23(número especial), 126-135.

Bykov, Iu. M. (1999). Sistemy upravleniia kachestvom v sootvetstvii so standartami ISO serii 9000 [Quality management systems in accordance with ISO 9000 series standards]. Volgograd: RPK "Politekhnik".

Chejmatova, V., & Vaganov, Y. (2022). Eficacia de las obras de estimulación del flujo de entrada de gas en la etapa final del desarrollo del campo [Effectiveness of gas inflow stimulation works at the final stage of field development]. Nexo Revista Científica, 35(04), 981-991. https://doi.org/10.5377/nexo.v35i04.15538

Fediukin, V. K., Durnev, V. D., & Lebedev, V. G. (2001). Metody otsenki i upravleniia kachestvom promyshlennoi produktsii [Methods of evaluation and management of industrial products quality]. Moscow: Information and publishing house "Filin" LLC.

Glichev, A. B. (2001). Osnovy upravleniia kachestvom produktsii [Fundamentals of product quality management]. Moscow: AIA "Standards and Quality".

Katanov, Yu., Vaganov, Yu., & Cheymetov, M. (2021). Neural simulation-based analysis of the well wall stability while productive seam penetrating. Mining of Mineral Deposits, 15(4), 91-98. https://doi.org/10.33271/mining15.04.091

Kenzhin, Z. B., Tulegenova, A. U., Zolkin, A. L., Kosnikova, O. V., & Shichkin, I. A. (2021). Labour market under economy digitalization. E3S Web of Conferences, 311, 08007. https://doi.org/10.1051/e3sconf/202131108007

Kiseleva, I., Gasparian, M., Karmanov, M., & Kuznetsov, V. (2023a). Methods of risk assessment and decision-making in investment projects amid economic instability. Journal of Management & Technology, 23(1), 57-68.

Kiseleva, I., Gasparian, M., Karmanov, M., & Kuznetsov, V. (2023b). Modelado de procesos de negocio en empresas de manufactura [Modeling business processes in manufacturing companies]. REICE: Revista Electrónica De Investigación En Ciencias Económicas, 10(20), 15-27. https://doi.org/10.5377/reice.v10i20.16022

Kiseleva, I., Tramova, A., Sulumov, S., & Khuriev, R. (2023c). Risk avoidance models as a factor in neutralizing negative consequences. Journal of Management & Technology, 23, 163-173.

Klyuev, S. V., Garkin, I. N., Klyuev, A. V., & Sabitov, L. S. (2022). Results of endurance testing of prefabricated crane structures. Construction Materials and Products, 5(4), 39-49. https://doi.org/10.58224/2618-7183-2022-5-4-39-49

Kotlyarova, V., Isakova, G., Vaslavskaya, I., Gorlova, O., Putrik, I., & Molochnikov, N. (2023). Impacto da civilização tecnogênica na evolução do pensamento científico [Impact of technogenic civilization on the evolution of scientific thinking]. Synesis, 15(4), 172-184.

Kozhabayev, H., Mombekova, G., Keneshbayev, B., & Yessimzhanova, S. (2023). Possibilities of applying the Kaizen system for improving quality management in the context of ESG development. Quality - Access to Success, 24(197), 24-34.

Loseva, A., Balashova, I., Lymareva, O., Prikhodko, A., Gayazova, S., & Shelygov, A. (2023). Oportunidades y desafíos en la preservación del capital intelectual y humano: estrategias para la preparación en un contexto socioeconómico complejo [Opportunities and challenges in preserving intellectual and human capital: strategies for readiness in a complex socio-economic context]. Nexo Revista Científica, 36(03), 352–362. https://doi.org/10.5377/nexo.v36i03.16457

Novoselov, O. G., Sabitov, L. S., Sibgatullin, K. E., Sibgatullin, E. S., Klyuev, A. V., Klyuev, S. V., & Shorstova, E. S. (2023). Method for calculating the strength of massive structural elements in the general case of their stress-strain state (parametric equations of the strength surface). Construction Materials and Products, 6(2), 104-120. https://doi.org/10.58224/2618-7183-2023-6-2-104-120

Panikarovskiy, E. V., Panikarovsky, V. V., Listak, M. V., Verkhovod, I. Yu., & Katanov, Yu. E. (2021). Drilling fluids for drilling wells at the Bovanenkovo oil and gas condensate field. International Journal of Engineering Trends and Technology, 69(12), 8-12, 2021. https://doi.org/10.14445/22315381/IJETT-V69I12P202

Sekerin, V., Gorokhova, A., Bank, S., Gayduk, N., & Gorlevskaya, L. (2022). Transformación del mercado laboral y las competencias profesionales necesarias de los empleados bajo la influencia del desarrollo de tecnologías y ciencias prácticas [Transformation of the labor market and the necessary professional competencies of employees under the influence of the development of technologies and practical sciences]. Nexo Revista Científica, 35(04), 942-949. https://doi.org/10.5377/nexo.v35i04.15532

Sereda, N. G., & Solovev, E. M. (1988). Burenie neftianykh i gazovykh skvazhin [Drilling of oil and gas wells]. Moscow: Nedra.

Syromiatnikov, E. S., & Andreev, A. F. (1991). Nauchno-tekhnicheskii progress v burenii neftianykh i gazovykh skvazhin [Scientific and technical progress in drilling oil and gas wells]. Moscow: Nedra.

Tolmachev, O., Urunov, A., Muminova, S., Dvoichenkova, G., & Davydov, I. (2020). Review of unconventional hydrocarbon resources: Production technologies and opportunities for development. Mining of Mineral Deposits, 14(4), 113-121. https://doi.org/10.33271/mining14.04.113

Ugolev, V. N. (1979). Upravlenie kachestvom rabot na predpriiatiiakh neftianoi i gazovoi promyshlennosti [Managing the quality of works at oil and gas industry enterprises]. Moscow: All-Russian Scientific and Research Institute of Organization, Management and Economics of Oil and Gas Industry.

Zaretskaya, M. (2022). Assessment of geo-environmental consequences of oil and gas complex enterprises’ extraction activities on the shelf. Mathematical Modelling of Engineering Problems, 9(6), 1497-1502. https://doi.org/10.18280/mmep.090608

Review of methods for assessing the quality of gas inflow stimulation works at the final stage of field development to improve the efficiency of the construction process

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