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Simulation model of traction electric drive of AC electric locomotive equipped with collector electric motors

Goolak Sergey, Riabov Ievgen, Tkachenko Viktor, Yeritsyan Bagish

Przegląd Elektrotechniczny

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2023

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R. 99, nr 4

118--127

EN

An approach to simulation modeling of traction electric drives of electric locomotives with collector engines is proposed which based on taking into account the nonlinear nature of the magnetic characteristic in electric motors, the inductances of the armature and the excitation winding of the electric motor, the nonlinearity of the volt-amperage characteristics of the rectifier unit and the features of the operation of the stage control system of the electric drive.

PL

Zaproponowano podejście do modelowania symulacyjnego elektrycznych napędów trakcyjnych lokomotyw elektrycznych z silnikami kolektorowymi, oparte na uwzględnieniu w silnikach elektrycznych nieliniowości charakterystyki magnetycznej, indukcyjności twornika i uzwojenia wzbudzenia silnika elektrycznego, nieliniowości charakterystyki napięciowo-napięciowej zespołu prostownikowego oraz cech działania układu sterowania stopniowego napędu elektrycznego.

2

Determination of the working energy capacity of the on-board energy storage system of an electric locomotive for quarry railway transport during working with a limitation of consumed power

Kondratieva Liliia, Bogdanovs Arturs, Overianova Liliia, Riabov Ievgen, Goolak Sergey

Archives of Transport

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2023

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Vol. 65, iss. 1

119--154

EN

The use of specialized rail rolling stock which is used for transporting ore from the quarry to the crushing plant at mining enterprises is analyzed here. Electric locomotives with an asynchronous traction electric drive and an on-board energy storage system are considered for use. The calculated dependencies of the electric locomotive tractive power were analyzed and it was established that on flat sections of the track profile, the movement is carried out with a power that does not exceed 50% of the nominal one. The movement with the nominal power is carried out on the controlled uphill during the cargo half-passage. To ensure the necessary power for movement in such areas, the use of an on-board energy storage system is proposed, which should feed the traction system while limiting the power consumed from the catenary. This happens when the voltage on the pantograph drops to a minimum level. The aim of this work is to determine the on-board energy storage system parameters during the operation of the electric locomotive with limitation of the power consumed from the traction network. Mathematical models of the energy exchange processes in the electric locomotive traction system have been developed. The criteria for comparing options for calculating the parameters of the on-board energy storage system have been proposed. The criteria take into account the reduction of energy consumption during movement, the efficiency of energy storage, and the complete use of the on-board energy storage system in terms of power and working energy capacity. Based on the calculation results, it was determined that the use of an energy storage device with a power of 3,540 kW and an operating energy capacity of 63.5 kWh provides a 10% reduction in energy consumption, which is being consumed while moving along the sample section of the road. The current that can be consumed by an electric locomotive with such parameters of the on-board energy storage system is limited by 600 A.

3

Improvement of the model of an asynchronous traction motor of an electric locomotive by taking into account power losses

Goolak Sergey, Riabov Ievgen, Gorobchenko Oleksandr, Yurchenko Viktor, Nezlina Olena

Przegląd Elektrotechniczny

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2022

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R. 98, nr 5

1--10

EN

The paper proposes an improved model of an asynchronous traction motor, taking into account magnetic losses in the steel of the motor, as a function of time, based on the equations of specific losses. When conducting research, a mathematical model of an asynchronous motor, made in the MATLab software environment, was used. Based on the simulation results, the value of average magnetic losses and time diagrams of magnetic losses were obtained for the nominal operating mode of the motor. The results obtained are compared with the passport data of the motor.

PL

W pracy zaproponowano udoskonalony model asynchronicznego silnika trakcyjnego uwzględniający straty magnetyczne w stali silnikowej w funkcji czasu, oparty na równaniach strat właściwych. W badaniach wykorzystano model matematyczny silnika indukcyjnego, wykonany w środowisku oprogramowania MATLab. Na podstawie wyników symulacji uzyskuje się wartości średnich strat magnetycznych oraz wykresy czasowe strat magnetycznych dla nominalnego trybu pracy silnika, a uzyskane wyniki porównuje się z danymi paszportowymi silnika.

4

Recommendations for the selection of parameters for shunting locomotives

Kuznetsov Valeriy, Lyubarskyi Borys, Kardas-Cinal Ewa, Yeritsyan Bagish, Riabov Ievgen, Rubanik Ivan

Archives of Transport

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2020

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Vol. 56, iss. 4

119--133

EN

Shunting is an integral part of the partial process. In 1520 mm gauge countries, shunting operations are performed by outdated locomotives, which are being replaced by modern models; the technical parameters best match the conditions of the shunting work performed. The article analyzes recommendations for the selection of parameters of shunting locomotives and the actual indicators of their work. On the basis of this analysis, a requirement was made on the necessity of compulsory consideration of the operating conditions of the locomotive when determining its technical characteristics. As the main technical parameters of shunting locomotives, the tractive power and starting tractive force are taken and their influence on the duration of an elementary shunting movement of the "acceleration-deceleration" type is investigated. This approach advises the regulatory documentation for the organization of shunting work. The developed mathematical model allows to carry out research on the influence of tractive power and starting tractive force on the time of acceleration and deceleration. Calculations of the time of the train's acceleration are carried out with varying their mass and the slope of the track at different values of the tractive power starting tractive force. The calculations were carried out for the mass of compositions 1000...5000 Mg for the profile slopes equal to 0 and 1.5 ‰. The speed of the finish of acceleration was taken equal to 15 and 25 km/h. The thrust starting tractive force varied in the range of 150...300 kN, the tractive power - 200 ... 1100 kW. According to the results of calculations, it was found that the reduction in the duration of the elementary shunting movement is more significantly affected by the power of the locomotive than by the starting traction force. The “saturation” effect was noted, in which a significant increase in power or traction force during starting does not cause a significant reduction in the acceleration time. In this regard, for shunting locomotives with AC traction drive, it is recommended to take a pulling force of an equal continuous traction force.