Definition of locomotive traction force with regard to uneven loading of wheel-motor block

Authors

  • B. Ye. Bodnar Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (066) 625 18 59, e-mail dmitriykis@i.ua,
  • M. I. Kapitsa Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (0562) 33 19 61, e-mail m.i.capica@ua.fm, https://orcid.org/0000-0002-3800-2920
  • D. N. Kyslyi Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (066) 625 18 59, e-mail dmitriykis@i.ua,

DOI:

https://doi.org/10.15802/stp2013/19677

Keywords:

traction calculations, traction electric machines, traction force, torque, rotational speed, magnetic flux, electrical power, mechanical power

Abstract

Purpose. The article describes the most common methods for determining the locomotive traction force. Solving the tasks of traction calculations involves determination of the forces influencing the train at every point of the way. When choosing a rational trajectory of the train motion and the development of operational regulations of train driving it is necessary to determine the actual value of the locomotive traction force. Considering various factors, power value of traction electric motor of locomotive may have significant differences. Advancement of the operational definition system of the locomotive traction force during the calculations by electrical parameters of traction electric motor with regard to uneven load of wheel-motor block is the purpose of the article. Methodology. The method of determining the traction force of locomotives and diesel locomotives with electric transmission, which is based on primary data acquisition of traction electric engines of direct current behavior, was proposed. Sensors and their integration into the electrical circuitry of the locomotive in order to get the data in digital form and for operational calculation of the each traction motor mode and the definition of locomotive traction force are presented. Findings. The experimental investigation of the system of locomotive traction force determination with the electric traction motor ED-105 was offered. A comparison of electrical and mechanical power of the electric motor was conducted. Originality. The system of locomotives power operational definition, which takes into account the variable electro-mechanical factors of wheel and motor blocks and increases the accuracy of the calculations, was proposed. Practical value. The system is a part of an onboard complex in definition of energy-efficient regimes for trains movement and provides the definition of accelerating and decelerating forces.

Author Biographies

B. Ye. Bodnar, Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (066) 625 18 59, e-mail dmitriykis@i.ua

Б. Е. Боднар

M. I. Kapitsa, Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (0562) 33 19 61, e-mail m.i.capica@ua.fm

М. И. Капица

D. N. Kyslyi, Dep. «Locomotives», Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Lazaryan St., 2, Dnipropetrovsk, Ukraine, 49010, tel. +38 (066) 625 18 59, e-mail dmitriykis@i.ua

Д. Н. Кислый

References

Bobrinskiy S.V. Analiz vliyaniya raznitsy diametrov bandazhey kolesnykh par na razbros tokov v parallelnykh tsepyakh tyagovykh elektrodvigateley i na nadezhnost lokomotiva [Influence analysis of the difference in diameters of wheelsets bandages on the currents spread in parallel circuits of traction motors and the reliability of the locomotive]. Transport Urala − Ural Transport, 2009, no. 4, pp. 50-52.

Bobyr D.V. Usovershenstvovaniye rezhimov vedeniya gruzovogo poyezda s elektricheskoy tyagoy. Kand. Dis. [Improvement of regimes for freight trains with electric traction. Cand. Diss.]. Dnipropetrovsk, 2007. 190 p.

Visin N.G., Vlasenko B.T., Sokolov S.A. Rezultaty issledovaniy po povysheniyu nadezhnosti raboty sistemy avtomaticheskogo upravleniya v rezhimakh tyagi i rekuperativno-reostatnogo tormozheniya na elektropoyezdakh ER2T [Research results on improvement of automatic control system reliability in the traction mode, regenerative and rheostatic braking on ER2T trains]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2007, issue 17, pp. 55-58.

Perevezentsev Ye.A., Shemanovskiy A.I. Sostavy vedut «Avtomashinisty» [«Automatic train driver» drive the trains]. Lokomotiv − Locomotive, 2005, issue 6, pp. 15-17.

Pravila tyagovykh raschetov dlya poyezdnoy raboty [Rules of traction calculations for train operation]. Moscow, Transport Publ., 287 p.

Pyasik M., Tolstov Ye., Sluchak I. Sistemy avtomaticheskogo vedeniya poyezda [Automatic train driving systems]. Sovremennyye tekhnologii avtomatizatsii − Modern automation technologies, 2000, issue 4, pp. 60-69.

Sablin O.I. Sistema elektricheskoy tyagi postoyannogo toka – sistema nepostoyannogo toka [The system of direct current electric traction is a system of non-direct current system]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2007, issue 14, pp. 67-71.

Sistemy avtovedeniya, registratsii parametrov dvizheniya i raboty tyagovogo podvizhnogo sostava. Obzornoye posobiye [System of automatic train operation, motion parameters recording and operation of traction rolling stock. Survey guide.]. Moscow, OOO «AVP Tekhnologiya» Publ., 2011. 96 p.

Filonov S.P., Gibalov A.I., Nikitin Ye.A. Teplovoz 2TE116 [Diesel 2TE116]. Moscow, Transport Publ., 1996. 334 p.

Ustymenko D.V. Suchasni mikrokontrolery v skhemakh rukhomoho skladu [Modern microcontrollers in the rolling stock schemes]. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu imeni akademika V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2007, issue 15, pp. 47-49.

Elektrovoz VL11m. Rukovodstvo po ekspluatatsii [Electric locomotive VL11m Operations manual]. Moscow, Transport Publ., 1994. 416 p.

Mahyar V., Amir T., Nasser L. Traction-Motor Power Ratio and Speed Trajectory Optimization for Power Split PHEVs Using Route Information. Int. Mechanical Engineering Congress and Exposition. Vol. 11: Transportation Systems. Houston, 2012, pp. 301-308.

Peter W. An Ensemble Empirical Mode Decomposition-Based Lossy Signal Compression Method for a Remote and Wireless Bearing Condition Monitoring System. Int. Design Engineering Techn. Conf. and Computers and Information in Engineering Conf. Vol. 1: 24th Conf. on Mechanical Vibration and Noise. Parts A and B. Illinois, 2012, pp. 151-158.

Torben O. Control of Oscillations in Electrically Driven Skid Steer Vehicles. Int. Mechanical Engineering Congress and Exposition. Design Engineering. Washington, DC, 2009, pp. 17-23.

Published

2013-12-25

How to Cite

Bodnar, B. Y., Kapitsa, M. I., & Kyslyi, D. N. (2013). Definition of locomotive traction force with regard to uneven loading of wheel-motor block. Science and Transport Progress, (6(48), 63–71. https://doi.org/10.15802/stp2013/19677

Issue

Section

OPERATION AND REPAIR OF TRANSPORT MEANS