Главная  /  Vestnik Chuvashskogo universiteta, 2023, no. 4. Topic of this Issue: Technical Sciences  /  Traction alternator for electric drive of front loader chassis

Traction alternator for electric drive of front loader chassis

DOI: 10.47026/1810-1909-2023-4-130-139

УДК 62-843

ББК О951.4

Mikhail Yu. SIDOROV, Aleksey G. KALININ, Vladimir A. BAKSHAEV, Evgeny L. GORSHKOV, Evgeny E. GORSHKOV

Key words

starter-generator, magnetic materials, efficiency of electric machines, liquid cooling

Abstract

For heavy construction equipment with a hybrid electric transmission, the power center of a group of traction electric drives can be formed by an electric generator and a renewable energy storage device (battery array) with the possibility of their joint operation to provide a surge of current in a group of traction electric drives. The battery array can be used to power a generator in a starter mode when starting a diesel internal combustion engine.

The purpose of the study is to substantiate the choice of the magnetic system of the power generator for the electric transmission and the possibility of a starter mode for an internal combustion engine drive. The study was carried out within the framework of a subsidized project to create mass production of a family of front loaders with a hybrid electric drive in Chuvashia.

Materials and research methods. The studies were carried out by the method of finite element analysis using the Russian software ELCUT (professional version and a set of reference books for domestic electrical and magnetic materials).

Results. The stage of analytical calculation of the active parts of a transmission electric generator for the preliminary design stage is presented. It was carried out for the following conditions: the use of Russian electrical and magnetic materials, the use of common industrial bearings and antifreeze, compatibility with existing technological equipment in the production of traction electric motors, engine mode for performing the starter function. The substantiation of the choice of the magnetic system based on the ratios of magnetic fluxes of different sizes of stator teeth is given. The article is illustrated with diagrams of magnetic and thermal fields for given operational characteristics and properties of a transmission electric generator.

Conclusions. For a given type of drive diesel engines installed on the front loaders, the highest efficiency indicators of the proposed generator magnetic system occur when using a multiplier. The power supply of the generator in the starter mode is provided by the installed array of traction batteries of the front loader without additional step-up converters.

References

  1. Anuchin A.S. Razrabotka tsifrovykh sistem effektivnogo upravleniya komplektov tyagovogo elektrooborudovaniya gibridnykh elektricheskikh transportnykh sredstv: dis. … doct. tekhn. nauk. [Development of digital systems for effective control of sets of traction electrical equipment of hybrid electric vehicles. Doct. Diss.]. Moskow, 2018, 445 p.
  2. Woldek A.I. Elektricheskiye mashiny. Uchebnik dlya studentov vysshikh tekhnicheskikh uchebnykh zavedeniy [Electrical machines. Textbook for students of higher technical educational institutions]. Leningrad. Energy Publ., 1978, 832 p.
  3. Gotter G. Nagrevaniye i okhlazhdeniye elektricheskikh mashin [Heating and cooling of electrical machines]. Moskow. Gosenegroizdat Publ., 1961, 264 p.
  4. Bakshaev V.A., Baykov A.A., Sidorov M.Yu., Gorshkov E.E., Kalinin A.G. Tyagovyy elektroprivod frontal’nogo pogruzchika [Traction drive for front loader]. Patent RF, no. 217697, 2023.
  5. Puzakov A.V. Prognozirovaniye rabotosposobnosti generatorov transportnykh sredstv [Forecasting the performance of vehicle generators]. Orenburg, 201, 332 p.
  6. Sidorov M.Yu., Kalinin A.G., Bakshayev V.A., Gorshkov Ye.L., Gorshkov E.E. Tyagovyy elektrodvigatel’ dlya shassi frontal’nogo pogruzchika [Traction motor from front loader chassis]. Vestnik Chuvashskogo universiteta, 2022, no. 3, pp. 95–102.
  7. Uong Kh. Osnovnyye formuly i dannyye po teploobmenu dlya inzhenerov [Basic formulas and data on heat transfer for engineers]. Moscow, Atomizdat Publ., 1979, 216 p.
  8. Shuyskiy V.P. Raschet elektricheskikh mashin [Calculation of electrical machines]. Leningrad, Energiya Publ., 1968, 731 p.
  9. Anuchin A., Lashkevich M., Aliamkin D., Gulyaeva M. Self-sensing Control of a Synchronous Homopolar Machine Using Field Current Response from Phase-shifted PWM. In: 2019 IEEE 10th International Symposium on Sensorless Control for Electrical Drives (SLED). Turin, Italy, 2019, pp. 1–5. DOI: 10.1109/SLED.2019.8896294.
  10. Wrobel R., Mecrow B. A Comprehensive Review of Additive Manufacturing in Construction of Electrical Machines. In: IEEE Transactions on Energy Conversion, 2020, vol. 35, no. 2, pp. 1054–1064. DOI: 10.1109/TEC.2020.2964942.

Information about the authors

Mikhail Yu. Sidorov – Candidate of Technical Sciences, Director, Special Machine-Building Design Bureau, Russia, St. Petersburg (Sidorov@smbdb.ru).

Aleksey G. Kalinin – Candidate of Technical Sciences, Associate Professor, Department of Electrical Technologies, Electrical Equipment and Automated Production, Chuvash State University, Russia, Cheboksary (humanoid1984@yandex.ru; ORCID: https://orcid.org/0000-0003-4598-507X).

Vladimir A. Bakshaev – Director, Cheboksary Enterprise «Sespel», Russia, Cheboksary (zaosespel@yandex.ru).

Evgeny L. Gorshkov – Engineer, Special Machine-Building Design Bureau, Russia, St. Petersburg (gorshkov.el@yandex.ru).

Evgeny E. Gorshkov – Engineer, Special Machine-Building Design Bureau, Russia, St. Petersburg (gorshkov.el@yandex.ru).

For citations

Sidorov M.Yu., Kalinin A.G., Bakshaev V.A., Gorshkov E.L., Gorshkov E.E. TRACTION ALTERNATOR FOR ELECTRIC DRIVE OF FRONT LOADER CHASSIS. Vestnik Chuvashskogo universiteta, 2023, no. 4, pp. 130–139. DOI: 10.47026/1810-1909-2023-4-130-139 (in Russian).

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