Chumack, VadimBazenov, VolodymyrTymoshchuk, OksanaKovalenko, MykhailoTsyvinskyi, SerhiiKovalenko, IrynaTkachuk, Ihor2024-04-292024-04-292021Voltage stabilization of a controlled autonomous magnetoelectric generator with a magnetic shunt and permanent magnet excitation / Vadim Chumack, Volodymyr Bazenov, Oksana Tymoshchuk, Mykhailo Kovalenko, Serhii Tsyvinskyi, Iryna Kovalenko, Ihor Tkachuk // Eastern-European Journal of Enterprise Technologies. - Харків : Eastern-European Journal of Enterprise Technologies. - 2021. - 6/5 (114). - С. 56-62.https://ela.kpi.ua/handle/123456789/66545The paper presents the results of testing and research of the characteristics of a controlled autonomous magnetoelectric synchronous generator with a magnetic shunt. Structurally, the studied generator is a modified asynchronous machine in which the rotor is made with permanent magnets and an additional system in the form of a magnetic shunt. By adjusting the winding current of the magnetic shunt, the output voltage of the generator is regulated. The following characteristics were investigated: the no-load characteristic during operation with permanent magnets and when the winding current of the magnetic shunt changes with forward and reverse polarity. Also, the external char acteristic for active and active-inductive loads; the control characteristic when the load current changes at a constant generator voltage. Analysis of the obtained characteristics makes it possible to determine the limits of regulation of the external characteristic, which is ≈40 % relative to the main magnetic flux. The obtained regulation depth allows maintaining the stability of the external characteristic for power factors not exceeding 0.9, which is the usual passport value for autonomous power plants based on synchronous generators. Comparison of the data of research conducted on the experimental setup shows sufficient convergence for engineering and practical tasks. The maximum quantitative difference is 9.3 %, which suggests the adequacy of the previously developed mathematical model. The control characteristic, constructed experimentally at constant generator voltage, is the control law of the magnetic shunt winding for the studied generator. The investigated version of a synchronous generator with a magnetic shunt should be used for autonomous power plants, renewable energy systems, and autonomous power supply systemsenmagnetic shuntgenerator voltage regulationmagnetizing windingmagnetoelectric excitationpermanent magnetsexperimental researchмагнітний шунтгенератор регулювання напругинамагнічування обмоткимагнітоелектричне збудженняпостійне магнітиекспериментальні дослідженняVoltage stabilization of a controlled autonomous magnetoelectric generator with a magnetic shunt and permanent magnet excitationArticleС. 56-62https://doi.org/10.15587/1729-4061.2021.246601621.313.8210000-0001-8401-79310000-0003-1622-52070000-0003-1863-30950000-0002-5602-20010000-0002-2800-67090000-0003-1097-20410000-0002-5717-2458