Mathematical modeling of wave processes in two-winding transformers taking into account the main magnetic flux
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- Category: Content №5 2021
- Last Updated on 29 October 2021
- Published on 30 November -0001
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Authors:
M.S.Seheda, orcid.org/0000-0001-8459-5758, Lviv Polytechnic National University, Lviv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Ye.V.Cheremnykh, orcid.org/0000-0002-4621-2426, Lviv Polytechnic National University, Lviv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
P.F.Gogolyuk, orcid.org/0000-0003-0002-4638, Lviv Polytechnic National University, Lviv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Yu.V.Blyznak, orcid.org/0000-0002-4914-2283, Lviv Polytechnic National University, Lviv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2021, (5): 080 - 086
https://doi.org/10.33271/nvngu/2021-5/080
Abstract:
Purpose. To create a method for mathematical modeling of wave processes in power two-winding transformers based on a substitute scheme, which takes into account the design features of power transformers.
Methodology. Formation of mathematical models for the research on wave processes in power two-winding transformers and further development of the analytical method for solving the system of partial differential equations.
Findings. A mathematical model for the research on wave processes in power two-winding transformers based on a substitution scheme, witch adequately takes into account both electrical and magnetic connections, is created and an improved analytical method is proposed for solving a system of partial differential equations which allows taking into account the interval time of propagation of electromagnetic waves along the entire length of the windings and the time interval, during which the voltage changes significantly from its complete change during the wave processes,.
Originality. The paper proposes a mathematical model for the research on wave processes in the windings of power two-winding transformers based on its alternative scheme, which takes into account electrical and magnetic connections, and improves the Fourier method for solving a system of differential equations with partial derivatives.
Practical value. A mathematical model is created for calculating wave processes in transformers, which allows analyzing the voltage distribution in the transformer windings during the action of pulse voltage on them and adjusting their insulating abilities, given that the operation of power transformers is subject to high requirements for the reliability of their work.
Keywords: wave process, mathematical model, transformer, differential equations in partial derivatives, boundary value problem
References.
1. Seheda, M.S., Cheremnykh, Y.V., Chimjk, .V., Mazur, T.A., & Kurylyshyn, .M. (2015). Mathematical modelling of stress distribution along the winding transformers under impulse surges. Tekhnichna Elektrodynamika, (6), 8-11. ISSN:1607-7970. E-ISSN:2218-1903.
2. Seheda, M.S., Cheremnykh, Y.V., Gogolyuk, P.F., & Blyznak,Y.V. (2020). Mathematical model of wave processes in two-winding transformers. Tekhnichna Elektrodynamika, (6), 63-67. https://doi.org/10.15407/techned2020.06.005.
3. Beshta, O., Kuvaiev, V., Mladetskyi, I., & Kuvaiev, M. (2020). Ulpa particle separation model in a spiral classifier. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, (1), 31-35. https://doi.org/10.33271/nvngu/2020-1/031.
4. Beshta, O.S. (2012). Electric drives adjustment for improvement of energy efficiency of technological processes. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, (4), 98-107.
5. CIGRE Brochure 577A, Electrical Transient Interaction between Transformers and the Power System. Part 1: Expertise. Joint Working Group A2/C4.39 (2014). Retrieved from http://www.http//xmlopez.webs.uvigo.es/Html/Info/2014_Electrical_Transients_Part1_Expertise.pdf.
6. CIGRE Brochure 577B, Electrical Transient Interaction between Transformers and the Power System. Part 2: Case Studies. Joint Working Group A2/C4.39 (2014). Retrieved from http://www.http//xmlopez.webs.uvigo.es/Html/Info/2014_Electrical_Transients_Part2_Expertise.pdf.
7. Trbui, M., & epin, M. (2011). Surge wave distribution over the power transformer continuous disc winding. Elektrotehniki vestnik 78(3), 106-111.
8. Larin, V.S. (2015). Overvoltages in Transformer Windings. Part 1. Conditions of Occurrence and Measures for Protection. Elektrichestvo, (11), 33-40.
9. Lavrinovich, V.A., Isaev, Y.N., & Mytnikov, A.V. (2013). Advanced control state technology of transformer. International Journal on Technical and Physical Problems of Engineering, 5(17(4)), 94-98.
10. Bontidean, S.G., Badic, M., Iordache, M., & Galan, N. (2015). Simulations and experimental tests on the distribution of overvoltage within transformer windings. U.P.B. Scientific Bulletin. Series C, 77(3).
11. Mikulovi, J.., & ekara, T.B. (2014). The Numerical Method of Inverse Laplace Transform for Calculation of Overvoltages in Power Transformers and Test Results. Serbian Journal of Electrical Engineering, 11(2), 243-256.
12. Isaev, Y.N., Startseva, E.V., & Schekotuev, A.V. (2015). Investigation of wave processes of transformer windings as electric circuit with distributed parameters. Izvestiya Tomskogo Politechnicheskogo Universiteta. Inzhiniering energoresursov, 326(8), 29-35.
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