PILOT TESTING TECHNOLOGY TO CLEAN GAS PIPELINES IN KHIDNOVYTSKE GAS FIELD

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Authors:

R.M.Kondrat, Doctor of Technical Science, Professor,Ivano-Frankivsk National Technical University of Oil and Gas, Professorof the Departmentof Explorationand Exploitation of Oiland Gas Fields, Ivano-Frankivsk, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it., orcid.org/0000-0002-9653-2567

A.V. Uhrynovskyi, Candidate of Technical Science, Ivano-Frankivsk National Technical University of Oil and Gas, Associate Professor of the Departmentof Explorationand Exploitation of Oiland Gas Fields,Ivano-Frankivsk, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it., orcid.org/0000-0002-3886-9639

O.S.Sendeha, Gas Production Department “Lvivhazvydobuvannya”, Director, Lviv, Ukraine

V.Ye. Blizniakov, Gas Production Department “Lvivhazvydobuvannya”, Chief Engineer, Lviv, Ukraine

T.V.Potiatynnyk, Gas Production Department “Lvivhazvydobuvannya”, Deputy Head of the Production Department, Lviv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it., orcid.org/0000-0002-5515-2154

Abstract:

Purpose. Improvement of hydraulic efficiency of the pipelines of the gas and gas-condensate wells by means of their internal cavity cleaning from fluid accumulations.

Methodology. The set tasks were solved by means of carrying out the experimental studies and determining the time, required for dissolution of the viscoelastic pig in water and condensate water with different content of the surface active agent. In order to determine the efficiency of using the viscoelastic pig, the appropriate pilot tests were performed on the pipelines of the Khidnovytske gas field wells.

Findings. The theoretical and actual values of the hydraulic resistance coefficient of the well flow lines were calculated for the conditions of the Khidnovytske gas field. The pipelines of the wells, where additional pressure losses occur due to the fluid accumulation in their lowered sections, were determined. In order to prevent formation of the water slugs in the pipelines of the wells, the technology of using the viscoelastic pig, which is water-soluble and consists of the domestic chemical agents, was proposed. The total gas flow rate increased by 1.1 thousand m3/day after the usage of the suggested technology.

Originality. A technology for cleaning the flow lines of the wells from the fluid accumulations with the help of the viscoelastic pig was developed on the basis of the water solution of the carboxymethyl cellulose and surface active agent with the possibility to regulate the destruction time of the polymer system.

Practical value. The proposed technology can be used for cleaning the internal cavity of the pipelines of the low-pressure gas and gas-condensate wells, as well as of the field gas pipelines, from the fluid accumulations. As a result, stable fault-free operation of the well with the increased flow rates of the gas and gas condensate is ensured.

References.

1. Skrylnyk, K. Y., Mukhammed Haleb Naser Al-Shammar and Krymov, A. P., 2015. Analysis of technologies for improving the efficiency of the system of gas gathering. Integrated technologies and energy saving, 1, рр. 7–13.

2. Sheina, Z. V., Sobolieva, A. V. and Ruzina, I. M., 2011. Analysis of technological measures to prevent operation complications of the objects of the linear portion of the gas pipelines that operate in depletion. Development issues of the Ukrainian gas industry: collection of scientific papers of the Ukrainian Scientific and Research Institute of Natural Gases, XXXIX, рр. 258–265.

3. Honcharov, V. M., Melnyk, A. P., Kostenko, L. O., Dehtiarov, O. A. and  Honcharov, M. V., 2010. On the foam cleaning technology and inhibition of the gas field and gas transportation equipment. Development issues of the Ukrainian gas industry: collection of scientific papers of the Ukrainian Scientific and Research Institute of Gases, XXXVIII, рр. 1799–1840.

4. Bratakh, М. І., Kusturova, O. V., Ruzina, I. M. and Krymov, A. P., 2013. Modeling of the purification of flow lines. Integrated technologies and energy saving, 4, рр. 9–14.

5. Bratakh, M. I., Skrylnyk, K. Y. and Burova, M. Y., 2013. Synthesis of the task of transporting polyphase media by a pipeline system. Integrated technologies and energy saving, 4, рр. 38–44.

6. Uhrynovskyi, A. V., Kondrat, R. M. and Himer, P. R., 2013. Mathematical model of the fluid accumulation in the lowered gas pipeline section. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 4, рр. 36–41.

7. Porada, Y. R. and Horal, L. Т., 2011. The main tendencies of development and improvement of intrarenal devices. Scientific reporter IFNTUNG, 1(27), рр. 87–90.

8. Kondrat, R. M., Uhrynovskyi, A. V., Petryshak, V. S. and Sapozhkova, T. S., 2013. Characterization and selection of the cleaning devices for cleaning of the internal pipeline cavity. Prospecting and development of oil and gas fields, 3(48), рр. 46–61.

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ISSN (print) 2071-2227,
ISSN (online) 2223-2362.
Journal was registered by Ministry of Justice of Ukraine.
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