ДОСЛІДЖЕННЯ ХАРАКТЕРИСТИК МАГНІТНИХ СИСТЕМ МЕТАЛОУЛОВЛЮВАЧІВ
Keywords:
fishing magnet, magnetic system, permanent magnet, magnetic flux density, bottom hole, ferromagnetic objectAbstract
During the construction of oil and gas wells, metal debris accumulates at the bottomholes. It is not completely removed to the surface by the flow of drilling fluid but remains throughout the drilling process, causing accelerated wear of rock-destroying tools. To reduce accident rates and improve the technical and economic performance of drilling, it is necessary to clean the bottomhole from cuttings and metal particles, in particular by using fishing magnets. An analysis of the operating conditions of fishing tools has shown that their performance is significantly influenced by design factors, including the dimensions of the magnetic system elements and their relative arrangement. The aim of the research is to study the influence of design characteristics on the efficiency of fishing magnets. The magnetic system was developed, taking into account the operating conditions of the tools in the well. To determine the optimal dimensions of permanent magnets and magnetic cores, theoretical studies of the systems’ magnetic characteristics were conducted. Three-dimensional models were developed, and calculations were performed in the ANSYS Electronics Desktop environment. As a result, the distribution of magnetic flux density on the surface and at the working gap of magnetic systems with different magnet lengths was obtained. It was found that varying the length of the permanent magnet from 6 mm to 10 mm has little effect on the magnetic flux density distribution, maintaining a similar field pattern and magnitude. Considering the efficient utilization of magnetic field energy, the most optimal configuration comprises a 6 mm magnet length and a 20 mm magnetic core length, with the cores operating close to the saturation limit of the soft magnetic material.
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References
Douglas J. Fishing techniques for drilling operations. Proceedings of AAPG Southwest Section Meeting. Texas. USA. 1999. P. 15-24.
DeGeare J. The Guide to Oilwell Fishing Operations: Tools, Techniques, and Rules of Thumb. Gulf Professional Publishing, second ed. 2014. P. 213.
Specialized Tools for Wellbore Debris Recovery / B. Coll, G. Laws, J. Jenpert, M. Sportelli, C. Svoboda, M. Trimble. Oilfield Review. 2012. Vol. 24, Issue 4. P. 4-13.
Myslyuk М. On the assessment of the carrying capacity of drilling fluids. SOCAR Proceedings. 2023. Vol. 1. P. 26–34. https://doi.org/10.5510/ogp20230100801
Advanced Hole Cleaning Monitoring in Real-time Improves Drilling Performance in Highly Deviated and Horizontal MRC (Maximum Reservoir Contact) Wells Drilled in the Lower Cretaceous Formations / M. Al-Sawafi, A. Hamouda, K. Ousdidene, V. Parmeshwar, W. Louati, S. Sharma, M. Farouk, A. Bahgat. Proceedings of International Geomechanics Symposium. Al Khobar, Saudi Arabia. October 30 – November 2, 2023. https://doi.org/10.56952/IGS-2023-0056
Raed H. Allawi, Faleh H. M. Almahdawi. Better Hole Cleaning In Highly Deviated Wellbores. IOP Conference Series: Materials Science and Engineering. 2019. Vol. 579 012007. doi:10.1088/1757-899X/579/1/012007
Ju G., Yan T., Sun X. Numerical Simulation of Effective Hole Cleaning by Using an Innovative Elliptical Drillpipe in HorizontalWellbore. Energies. 2022. Vol. 15 (399). https://doi.org/10.3390/en15020399
Alawami M., Bassam M., Gharbi S., Rubaii M. A Real-Time Indicator for the Evaluation of Hole Cleaning Efficiency. Proceedings of SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition. Bali, Indonesia. October 29-31, 2019. Paper Number: SPE-196448-MS. https://doi.org/10.2118/196448-MS
Johnson E., Land J., Lee M., Robertson, R. Landing the big one – the art of fishing. Oilfield Review. 2012. Vol. 24 (4). P. 26-35.
Kotskulych Ia. S., Kyrchei O. I., Lazarenko O. H., Livinskyi, A. M. Vidnovlennia sverdlovyn shliakhom zaburiuvannia novykh stovburiv. Molodyi vchenyi. 2016. No. 12.1. P. 45-49. [in Ukrainian]
Piatkivskyi S., Stavychnyi Y., Femiak Y., Tershak B., Ahafonov D. and Kovbasiuk M. Well Rehabilitation is a Promising Area for Increasing Hydrocarbon Production. Journal of Mechanical Engineering. 2024. Vol.74, no.1. P. 141-158. https://doi.org/10.2478/scjme-2024-0015
Haughton D. B., Connell P. Reliable and Effective Downhole Cleaning System for Debris and Junk Removal. Proceedings of SPE Asia Pacific Oil & Gas Conference and Exhibition. Adelaide, Australia. September 11–13, 2006. Paper Number: SPE-101727-MS. https://doi.org/10.2118/101727-MS
Connell P., Haughton D. B. Removal of Debris from Deepwater Wellbores Using Vectored Annulus Cleaning System Reduces Problems and Saves Rig Time. Proceedings of SPE Annual Technical Conference and Exhibition. Dallas, Texas. October 9-12, 2005. Paper Number: SPE-96440-MS. https://doi.org/10.2118/96440-MS
Best Practices for Wellbore Cleanup and Displacements in Openhole Sand-Control Completions / M. Beldongar, D. Agee, A. Kumar, M. Offenbacher, N. Flamant, A. Lees, B. Gadiyar, M. Parlar. SPE Drilling & Completion. 2018. Vol. 33, Issue 01. P 1-11. https://doi.org/10.2118/183888-PA
Romanyshyn T., Dzhus A., Romanyshyn L. Design and research of fishing tools with rational parameters of magnetic systems. Eastern-European Journal of Enterprise Technologies. 2017. Vol. 4, N. 5 (88). P. 17-22. DOI: 10.15587/1729-4061.2017.108822.
Romanyshyn T., Prysiazhniuk P., Romanyshyn L. Study of the efficiency of fishing tool with the moving magnetic systems. Scientific Bulletin of Ivano-Frankivsk National Technical University of Oil and Gas. 2022. Vol. 2 (53). P. 38-46. DOI: 10.31471/1993-9965-2022-2(53)-38-46
DEXTER Magnetic Technologies. Material Grades. Neodymium Iron Boron Magnets. URL: http://www.dextermag.com/material-grades/neodymium-iron-boron-magnets.
Romanyshyn T. L. Obhruntuvannia vyboru materialiv postiinykh mahnitiv dlia lovylnykh prystroiv. Rozvidka ta rozrobka naftovykh i hazovykh rodovyshch. 2013. № 1. Р. 143-152. [in Ukrainian]
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