Backgrounds of experimental investigation of electromagnetic compatibility of traction asynchronous electric drives in the structure of dc traction power supply system

YU. S. Bondarenko

Abstract


Purpose. Application of physical modeling as a tool for research of any events or systems is becoming more widespread, including the field of railway transport. At the same time the adequacy of results that can be obtained, depends largely on the similarity degree of the physical model to real system. From the standpoint of the traction asynchronous electric drive (TAED) research together with the traction power supply system research, the similarity can not be determined by the direct proportion of the parameters, because the processes nature accompanying the operation of these systems is non-linear. These features should be taken into account in the experimental setup, the basis for constructing of which is establishing of the system similarity that defines the purpose of this paper. Methodology. At the heart of the experimental setup creation laid reproduction of processes of energy transformation in the system of the DC traction power supply. Determination of the similarity degree of the proposed facility to the real system was carried out using the basic theorems of the similarity theory, their additional provisions on the complexity and nonlinear systems, as well as elements of mathematical analysis. Findings. According to the results of work: 1) The block diagram, the energy conversion mechanism of which is similar to the real system was received. This scheme is the basis of experimental setup, built in the future for the study of electromagnetic compatibility of TAED in the structure of DC traction electric power supply system. 2) Similarity of obtained structural scheme with the real system with the mechanism definition of calculating the scaling relations was established. Originality. In the process of establishing the similarity a simplified method for determining the scaling relations for nonlinear systems was suggested. They are identical in their structure components, but have different capacities. Practical value. Experimental research of electromagnetic compatibility of TAED in the structure of traction power DC system using the elements of similarity theory will provide more adequate results and, as a consequence, create preconditions for further improvement process of the aggregate related systems functioning of electrified railways.


Keywords


: traction asynchronous electric drive; similarity theory; scaling relations; experimental setup

References


Kravchik A.E., Shlaf M.M., Afonin V.I., Sobolenskaya Ye.A. Asinkhronnyye dvigateli serii 4A [Induction motors series 4A]. Moscow, Energoizdat Publ, 1982. 504 p.

Babakov M.F., Popov A.V. Metody mashinnogo modelirovaniya v proyektirovanii elektronnoy apparatury [Methods of computer simulation in the design of electronic equipment]. Kharkov, KhAI Publ., 2001. 90 p.

Bezruchenko V.N. Elektricheskiye mashiny [Electrical machines]. Kyiv, Vysshaya shkola Publ., 1980. 215 p.

Bogdanov A.A. Vizualizatsiya dannykh v Microcal Origin [Data Visualization in Microcal Origin.]. Moscow, Alteks-A Publ., 2003. 104 p.

Bogryy V.S., Russkikh A.A. Matematicheskoye modelirovaniye tiristornykh preobrazovateley [Mathematical modeling of thyristor converters]. Moscow, Energiya Publ., 1972. 184 p.

Boyko N.G., Ustimenko T.A. Teoriya i metody inzhenernogo eksperimenta [Theory and methods of engineering experiment]. Donetsk, DNTU Publ., 2009. 155 p.

Burkov A.T. Elektronnaya tekhnika i preobrazovateli [Electronic equipment and converters]. Moscow, Transport Publ., 1999. 464 p.

Venikov V.A. Teoriya podobiya i modelirovaniya (primenitelno k zadacham elektroenergetiki) [Similarity theory and modeling (applied to the problems of electric power )]. Moscow, Vysshaya shkola Publ., 1976. 479 p.

Vіsіn M.G., Zabarilo D.O. Pidvyshchennia elektromahnitnoi sumisnosti reikovykh kil z elektrorukhomym skladom podviinoho zhyvlennia z asynkhronnymy tiahovymy dvyhunamy ta tiahovoiu merezheiu [Electromagnetic compatibility improvement of track circuits with electric stock of doubly-fed with asynchronous traction motor and traction network]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2012, issue 40, pp.75-82.

Gukhman A.A. Vvedeniye v teoriyu podobiya [Introduction to the similarity theory]. Moscow, Vysshaya shkola Publ., 1973. 296 p.

Kirpichev M.V., Konakov P.K. Matematicheskiye osnovy teorii podobiya. [Mathematical foundations of the similarity theory]. Moscow, AN SSSR Publ., 1949. 106 p.

Litovchenko V.V. Opredeleniye energeticheskikh pokazateley elektropodvizhnogo sostava peremennogo toka s 4q-S-preobrazovatelyami [Determination of power indicators of AC electric rolling stock with 4q-S- converters]. Elektrotekhnika – Electrotechnics, 1993, no. 5, pp. 23-31.

Moshchinskiy Yu.A., Bespalov V.Ya., Kiryakin A.A. Opredeleniye parametrov skhemy zameshcheniya asinkhronnoy mashiny po katalozhnym dannym [Determination of equivalent network parameters of an induction machine on catalog data]. Elektrichestvo – Electricity, 1998, no. 4, pp. 38-42.

Prokhorskiy A.A. Tyagovyye i transformatornyye podstantsii [Traction and transformer substations]. Moscow, Transport Publ., 1983. 496 p.

Sokolov Yu.N. Elektrovoz DS3. Konspekt dlya lokomotivnykh brigad. Ustroystvo, upravleniye, obsluzhivaniye [DS3 locomotive. Synopsis for foot-plate staff. Structure, management, maintenance]. Kyiv, KUYeTT Publ., 2011. 299 p.

TKh 218.1039. Protokol kvalifikatsionnykh ispytaniy asinkhronnogo dvigatelya STA-1200U1 [TX 218.1039. Quali-fication testing protocol of STA- 1200U1 asynchronous motor]. Kharkov, GP «Elektrotyazhmash» Publ., 2008. 100 p.

Shcheka V.I., Romantsev I.O., Yashchuk K.I. Doslidzhennia vplyvu zvorotnoho tiahovoho strumu na rezhymy roboty tonalnykh reikovykh kil [Investigation of the back traction current influence on operating regime of tonal rail circuits]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2012, issue 42, pp.24-28.

Hou C.-L., Jiang Y.-S., Qi X.-Z., Wei X. Application of similarity theory in research on consistency in multi-resolution modeling. Advanced Materials Research, 2012, vol. 562-564, pp. 2128-2133.

Sandoval-Ibarra F., Mercado-Moreno J.R., Uriostegui-Vazquez R.H. Basic circuit to design switched-based DC-DC converters. Revista Mexicana De Fisica, 2007, issue 53 (2), pp. 128-133.

Vasuki P., Mahalakshmi R. Power factor improvement it three phase AC-AC converter through modified SPWM. International Journal of Engineering Science and Technology (IJEST), 2011, vol. 3, no. 2, pp. 1438-1445.


GOST Style Citations


1. Асинхронные двигатели серии 4А : справ. / А. Э. Кравчик, М. М. Шлаф, В. И. Афонин, Е. А. Соболенская. – М. : Энергоиздат, 1982. – 504 с.

2. Бабаков, М. Ф. Методы машинного моделирования в проектировании электронной аппаратуры / М. Ф. Бабаков, А. В. Попов. – Х. : Изд-во ХАИ, 2001. – 90 с.

3. Безрученко, В. Н. Электрические машины / В. Н. Безрученко. – К. : Вища школа, 1980. – 215 с.

4. Богданов, А. А. Визуализация данных в Micro-cal Origin / А. А. Богданов. – М. : Альтекс-А, 2003. – 104 с.

5. Богрый, В. С. Математическое моделирование тиристорных преобразователей / В. С. Богрый, А. А. Русских. – М. : Энергия, 1972. – 184 с.

6. Бойко, Н. Г. Теория и методы инженерного эксперимента : курс лекций / Н. Г. Бойко, Т. А. Устименко. – Донецк : ДНТУ, 2009 – 155 с.

7. Бурков, А. Т. Электронная техника и преобразователи / А. Т. Бурков. – М. : Транспорт, 1999. – 464 с.

8. Веников, В. А. Теория подобия и моделирования (применительно к задачам электроэнергетики) / В. А. Веников. – 2-е изд., прераб. и доп. − М. : Высш. шк., 1976. – 479 с.

9. Вісін, М. Г. Підвищення електромагнітної сумі-сності рейкових кіл з електрорухомим складом подвійного живлення з асинхронними тяговими двигунами та тяговою мережею / М. Г. Вісін, Д. О. Забарило // Вісн. Дніпропетр. нац. ун-ту залізн. трансп. ім. акад. В. Лазаряна. – Д., 2012. − Вип. 40. − С. 75–82.

10. Гухман, А. А. Введение в теорию подобия. / А. А. Гухман. – М. : Высшая школа, 1973. – 296 с.

11. Кирпичев, М. В. Математические основы теории подобия / М. В. Кирпичев, П. К. Конаков. – М., Л. : Изд-во АН СССР, 1949. – 106 с.

12. Литовченко, В. В. Определение энергетических показателей электроподвижного состава переменного тока с 4q-S-преобразователями / В. В. Литовченко // Электротехника. – 1993. – № 5. – С. 23–31.

13. Мощинский, Ю. А. Определение параметров схе-мы замещения асинхронной машины по каталожным данным / Ю. А. Мощинский, В. Я. Беспалов, А. А. Кирякин // Электричество. – 1998. – № 4. – С. 38–42.

14. Прохорский, А. А. Тяговые и трансформаторные подстанции / А. А. Прохорский. – М. : Транспорт, 1983. – 496 с.

15. Соколов, Ю. Н. Электровоз ДС3. Конспект для локомотивных бригад. Устройство, управление, обслуживание / Ю. Н. Соколов. – К. : КУЕТТ, 2011. – 299 с.

16. ТХ 218.1039. Протокол квалификационных ис-пытаний асинхронного двигателя СТА-1200У1. – Харьков : ГП «Электротяжмаш», 2008. −100 с.

17. Щека, В. І. Дослідження впливу зворотнього тягового струму на режими роботи тональних рейкових кіл / В. І. Щека, І. О. Романцев, К. І. Ящук // Вісн. Дніпропетр. нац. ун-ту залізн. трансп. ім. акад. В. Лазаряна. – Д., 2012. − Вип. 42. − С. 24–28.

18. Application of similarity theory in research on consistency in multi-resolution modeling / C.-L. Hou, Y.-S. Jiang, X.-Z. Qi, X. Wei // Advanced Materials Research. − 2012. − Vol. 562−564. − P. 2128−2133.

19. Sandoval-Ibarra, F. Basic circuit to design switched-based DC-DC converters / F. Sandoval-Ibarra, J. R. Mercado-Moreno, R. H. Uriostegui-Vazquez // Revista Mexicana De Fisica. − 2007. − Iss. 53 (2). − P. 128−133.

20. Vasuki, P. Power factor improvement it three phase AC-AC converter through modified SPWM / Р. Vasuki, R. Mahalakshmi // Int. J. of Engineering Science and Technology (IJEST). − 2011. − Vol. 3, № 2. − Р. 1438−1445.


DOI: https://doi.org/10.15802/stp2014/25810

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