Simulation modelling of nonlinear modes of electric network operation and processing of results using a computer program

The trend of industrial facilities development is directly related to the introduction of various semiconductor converters into power supply systems. However, the issue of influence of these converters on the quality of electric power remains relevant. Power installations of induction heating, which include thyristor frequency converter, can cause the appearance of harmonic distortions. The paper presents an active experiment on a selected object of study with a nonlinear load. This developed model is designed to determine the indicators of power quality caused by the operation of nonlinear load. The model allows carrying out studies of the influence of nonlinear load on the quality of electrical energy at different parameters of the electrical network. The results of the experiment are processed using a computer program and the analysis of data processing of the results is carried out.

1. Stepanov V. S., Solonina N. N., Suslov K. V. Analiz vliyaniya garmonicheskikh kolebaniy na rabotu elektricheskikh setey i potrebiteley [Analysis of harmonic oscillation effect on the operation of electrical networks and consumers]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta. Bulletin of Irkutsk State Technical University. 2015. No. 3 (98). P. 222–227. EDN: TMYXPV. (In Russ.).

2. Khatsevskiy K. V., Denchik Yu. M., Kleutin V. I. [et al.] Problemy kachestva elektroenergii v sistemakh elektrosnabzheniya [Quality of electric power in electrical supply system]. Omskiy nauchnyy vestnik. Omsk Scientific Bulletin. 2012. No. 2 (110). P. 212–214. EDN: PBGNQN. (In Russ.).

3. Bershadskiy I. A., Yakimishina V. V., Naglyuk E. Ya. Vliyaniye nesinusoidal’nosti i nesimmetrii v chetyrekhprovodnoy seti nepromyshlennykh potrebiteley na snizheniye propusknoy sposobnosti kabeley [Impact of sinusoidality and asymmetry in fourwire network of non-industrial consumers on reducing the cable capacity]. Vestnik Donetskogo natsional’nogo tekhnicheskogo universiteta. Vestnik Donetsk National Technical University. 2020. No. 2 (20). P. 18–25. EDN: QECTFU. (In Russ.).

4. Rudi D. Yu., Antonov A. I., Vishnyagov M. G. [et al.]. Issledovaniye vysshikh garmonik v elektricheskikh setyakh nizkogo napryazheniya [Study of higher harmonics in low voltage electrical networks]. Omskiy nauchnyy vestnik. Omsk Scientific Bulletin. 2018. No. 6 (162). P. 119–125. DOI: 10.25206/1813-8225-2018-162-119-125. EDN: VQNFZY. (In Russ.).

5. Antonov A. I., Rudi D. Yu., Khatsevskiy K. V. Issledovaniye kachestva elektroenergii v elektricheskikh setyakh s poluprovodnikovymi preobrazovatelyami [Study of the quality of electric power in electric networks with semiconductor converters]. Vestnik Yugorskogo gosudarstvennogo universiteta. Yugra State University Bulletin. 2023. No. 1 (68). P. 123–30. DOI: 10.18822/byusu202301123-130. EDN: TNSTWH. (In Russ.).

6. Rylov Yu. A. Raschet rezhimov raboty sistem elektrosnabzheniya i opredeleniye dolevogo vklada potrebiteley v pokazateli kachestva elektroenergii pri nalichii nesinusoidal'nykh nagruzok [Calculation of operating modes of power supply systems and determination of the share contribution of consumers to the quality indicators of electric power in the presence of non-sinusoidal loads]. Kazan, 2006. 152 p. (In Russ.).

7. Viktorov V. A., Meshalkin V. A., Saltykov V. M. Issledovaniye urovney i spektrov vysshikh garmonik toka v elektricheskikh setyakh pitaniya komp’yuternoy tekhniki i osnovnyye meropriyatiya po obespecheniyu elektromagnitnoy sovmestimosti [The research of the levels and spectra of higher harmonics of current in electrical power networks of computer equipment and the basic activities of the electromagnetic compatibility provision]. Sistemy upravleniya, svyazi i bezopasnosti. Systems of Control, Communication and Security. 2019. No. 4. P. 381–401. DOI: 10.24411/2410-9916-2019-10415. EDN: JGIIPU. (In Russ.).

8. Abramovich B. N., Sychev Yu. A., Mingazov A. S., Polishchuk V. V. O kompensatsii vysshikh garmonik toka i napryazheniya, sozdavayemykh istochnikom bespereboynogo pitaniya [On the elimination of voltage and current harmonics created by uninterruptible power]. Neftyanoye khozyaystvo. Oil Industry. 2013. No. 10. P. 126–127. EDN: RPUKPH. (In Russ.).

9. Shirokov O. G., Alferova T. V., Bakhmutskaya V. V., Yurlov I. Yu. Otsenka vliyaniya osvetitel’noy nagruzki na pokazateli nesinusoidal’nosti napryazheniya i potreblyayemogo toka [Assessment of the impact of lighting load on the indices of non-sinusoidal voltage and consumed current]. Agrotekhnika i energoobespecheniye. Agricultural Machinery and Energy Supply. 2018. No. 2 (19). P. 28–40. EDN: OVGBVB. (In Russ.).

10. Zhezhelenko I. V. Vysshiye garmoniki v sistemakh elektrosnabzheniya prompredpriyatiy [Higher harmonics in power supply systems of industrial enterprises]. 3rd ed., revised and suppl. Moscow, 1994. 264 p. (In Russ.).

11. Shidlovskiy A. K., Zharkin A. F. Vysshiye garmoniki v nizkovol’tnykh elektricheskikh setyakh [Higher harmonics in lowvoltage electrical networks]. Kyiv, 2005. 209 p. ISBN 966-00-0471-0. EDN: QMLTXN. (In Russ.).

12. Rudi D. Yu., Gorelov S. V., Antonov A. I. [et al.] Analiz nesinusoidal’nosti napryazheniya v sistemakh elektrosnabzheniya s elektroustanovkami induktsionnogo nagreva [Analysis of voltage non-sinusidality in power supply systems with induction heating units]. Vestnik Chuvashskogo universiteta. Bulletin of the Chuvash University. 2021. No. 1. P. 122–133. DOI: 10.47026/1810-1909-2021-1-122-133. EDN: DBZXOF. (In Russ.).

13. Rudi D. Yu. Elektromagnitnaya sovmestimost’ v sisteme elektrosnabzheniya mekhanicheskogo tsekha ZAO «Sibgazstroydetal’» s elektroustanovkami induktsionnogo nagreva [Electromagnetic compatibility in the power supply system of the mechanical shop of CJSC Sibgazstroydetal with induction heating electrical installations]. Elektrooborudovaniye: ekspluatatsiya i remont. Electrical Equipment: Operation and Repair. 2021. No. 10. P. 35–43. EDN: UFCKMB. (In Russ.).

14. Korzhov D. N. Obespecheniye elektromagnitnoy sovmestimosti v sistemakh elektrosnabzheniya promyshlennykh predpriyatiy s elektroustanovkami induktsionnogo nagreva [Ensuring electromagnetic compatibility in power supply systems of industrial enterprises with induction heating installations]. Belgorod, 2015. 169 p. (In Russ.).

15. Ordabayev M. E. Povysheniye elektromagnitnoy sovmestimosti v sistemakh elektrosnabzheniya pri garmonicheskom vozdeystvii [Increasing electromagnetic compatibility in power supply systems under harmonic influence]. Moscow, 2009. 168 p. (In Russ.).

16. Lyutarevich A. G., Vyrva A. A., Dolinger S. Yu. [et al.] Otsenka dopolnitel’nykh poter’ moshchnosti ot vysshikh garmonik v elementakh sistem elektrosnabzheniya [Estimation of additional power losses due to higher harmonics in elements of power system]. Omskiy nauchnyy vestnik. Omsk Scientific Bulletin. 2009. No. 1 (77). P. 109–113. EDN: MVPQYB. (In Russ.).

17. Osipov D. S., Lyutarevich A. G., Tkachenko V. A., Logunova Ya. Yu. Algoritm rascheta poter’ moshchnosti, obuslovlennykh vysshimi garmonikami i intergarmonikami na osnove veyvletpreobrazovaniya [An algorithm for calculating power losses due to higher harmonics and interharmonics based on the wavelet transform]. Vestnik Yuzhno-Ural’skogo gosudarstvennogo universiteta. Seriya: Energetika. Bulletin of South Ural State University. Series “Power Engineering”. 2023. Vol. 23, no. 1. P. 38–47. DOI: 10.14529/power230104. EDN: UURUKU. (In Russ.).

18. Osipov D. S., Kovalenko D. V., Goryunov V. N., Dolgikh N. N. Raschet dopolnitel’nykh poter’ moshchnosti pri nesinusoidal’nykh rezhimakh sistem elektrosnabzheniya s uchetom temperaturnoy zavisimosti soprotivleniya tokovedushchikh chastey [Calculation of additional power losses in non-sinusoidal modes of power supply systems considering the temperature dependence of the currentcarrying parts resistance]. Uchenyye Omska — Regionu. 2016. P. 44–48. EDN: YYVQSV. (In Russ.).

19. Spravochnik po elektrosnabzheniyu i elektrooborudovaniyu. Elektrooborudovaniye. V 2 t. [Handbook of power supply and electrical equipment. Electrical equipment] / Ed. by A. A. Fedorov. Moscow, 1987. Vol. 2. 487 p. (In Russ.).

20. Ivanova E. V. Konduktivnyye elektromagnitnyye pomekhi v elektroenergeticheskikh sistemakh [Conductive electromagnetic interference in electric power systems] / Ed. by V. P. Gorelov, N. N. Lizaleka. Novosibirsk, 2006. 432 p. ISBN 5-8119-0201-0. EDN: QMJPSJ. (In Russ.).

21. Antonov A. I., Rudi D. Yu., Khatsevskiy K. V. Modelirovaniye sistemy elektrosnabzheniya tsekha krivoizognutykh otvodov v programme Matlab [Modeling of the power supply system of the shop of curved branches in Matlab]. Novyye tekhnologii v TEK, energoeffektivnost’ i energosberezheniye v TEK. New Technologies in the FEC, Energy Efficiency and Energy Saving in FEC. KhantyMansiysk, 2023. P. 12–19. EDN: OBSZTI. (In Russ.).

22. Antonov A. I. Povysheniye kachestva funktsionirovaniya elektricheskikh setey na osnove komp'yuternogo modelirovaniya nesimmetrichnykh rezhimov [Improving the quality of electrical networks based on computer modeling of asymmetric modes]. Novosibirsk, 2020. 187 p. (In Russ.).

23. Rudi D. Yu., Vishnyagov M. G., Ruppel A. A. Komp’yuternaya programma dlya opredeleniya konduktivnoy nizkochastotnoy elektromagnitnoy pomekhi po koeffitsiyentu n-y garmonicheskoy sostavlyayushchey napryazheniya [Computer program for determining the conductive low-frequency electromagnetic interference by the coefficient of the nth harmonic component of the voltage]. Mezhdunarodnyy tekhniko-ekonomicheskiy zhurnal. International Scientific Journal. 2021. No. 1. P. 65– 78. DOI: 10.34286/1995-4646-2021-76-1-65-78. EDN: ITCMBE. (In Russ.).

24. Rudi D. Yu., Antonov A. I., Denchik Yu. M. [et al.]. Programma dlya opredeleniya konduktivnoy nizkochastotnoy elektromagnitnoy pomekhi po koeffitsiyentu n-y garmonicheskoy sostavlyayushchey napryazheniya [Program for determining conductive low-frequency electromagnetic interference by the coefficient of the n-th harmonic component of voltage: computer program No. 2021613934]. Moscow, 2024. Bull. No. 2. EDN: LTRBRG. (In Russ.).

25. Rudi D. Yu., Gorelov S. V., Vishnyagov M. G. [et al.] Algoritm opredeleniya konduktivnoy nizkochastotnoy elektromagnitnoy pomekhi po koeffitsiyentu n-y garmonicheskoy sostavlyayushchey napryazheniya [The algorithm for determining the conductive low-frequency electromagnetic interference by the coefficient of the nth harmonic component of the voltage]. Vestnik Permskogo natsional’nogo issledovatel’skogo politekhnicheskogo universiteta. Elektrotekhnika, informatsionnyye tekhnologii, sistemy upravleniya. Bulletin of Perm National Research Polytechnic University. Electrical Engineering, Information Technology, Control Systems. 2020. No. 33. P. 177–194. DOI: 10.15593/2224-9397/2020.1.11. EDN: WZNAYM. (In Russ.).

26. Antonov A. I., Rudi D. Yu., Khatsevskiy K. V. Analiz rezul’tatov issledovaniya kachestva elektroenergii v elektricheskikh setyakh ZAO «Sibgazstroydetal» [Analysis of the results of studying the quality of electric power in the electric networks of the CJSC Sibgazstroydetal]. Vestnik Yugorskogo gosudarstvennogo universiteta. Yugra State University Bulletin. 2023. No. 4. P. 143–152. DOI: 10.18822/byusu202304143-152. EDN: HILOYG. (In Russ.).

27. Bronshteyn I. N., Semendyayev K. A. Spravochnik po matematike dlya inzhenerov i uchashchikhsya vuzov [Handbook of mathematics for engineers and students]. Moscow, 1981. 721 p. (In Russ.).