Validation of mathematical model of electrothermal calculation of DC catenary on the basis of scale model-Reference-Cited by-同舟云学术

Validation of mathematical model of electrothermal calculation of DC catenary on the basis of scale model

Published:2018-08-28 Issue:4 Volume:77 Page:222-229
ISSN:2223-9731
Container-title:Vestnik of the Railway Research Institute
language:
Short-container-title:Vestnik Naučno-issledovatelʹskogo instituta železnodorožnogo transporta

Author:

Paranin A. V.¹,Batrashov A. B.¹

Affiliation:

1. Federal State Budget Educational Institution of Higher Education “Ural State University of Railway Transport” (FGBOU VO UrGUPS)

Abstract

The article compares the results of calculation of the finite element simulation of current and temperature distribution in the scale model of the DC catenary with the data of laboratory tests. Researches were carried on various versions of the structural design of catenary model, reflecting the topological features of the wire connection, characteristic of the DC contact network. The proportions of the cross-sectional area of the scaled model wires are comparable to each other with the corresponding values for real DC catenary. The article deals with the operating conditions of the catenary model in the modes of transit and current collection. When studying the operation of the scale catenary model in the transit mode, the effect of the structural elements on the current distribution and heating of the wires was obtained. Within the framework of the scale model, theoretical assumptions about the current overload of the supporting cable near the middle anchoring have been confirmed. In the current collection mode, the experimental dependences of the current in the transverse wires of the scale model are obtained from the coordinate of the current collection point. Using the model it was experimentally confirmed that in the section of the contact wire with local wear, not only the temperature rise occurs but also the current redistribution due to the smaller cross section. Thus, the current share in other longitudinal wires of the scale model increases and their temperature rises. Scale and mathematical models are constructed with allowance for laboratory clamps and supporting elements that participate in the removal of heat from the investigated wires. Obtained study results of the scale model allow to draw a conclusion about the adequacy of the mathematical model and its correspondence to the real physical process. These conclusions indicate the possibility of applying mathematical model for calculating real catenary, taking into account the uneven contact wear wire and the armature of the contact network.

Publisher

JSC Vniizht

Reference13 articles.

1. Strategy of scientific and technical development of the holding “Russian Railways” for the period until 2020 and the prospect until 2025. “White Paper” of the JSC “Russian Railways”. Moscow, JSC “RZD” Publ., 2015, 68 p. (in Russ.)

2. Batrashov A. B. Sravnenie modeley tokoraspredeleniya v kontaktnykh podveskakh postoyannogo toka [Comparison of current distribution models in DC catenary]. Izvestiya Transsiba, 2017, no. 4, pp. 54 – 67.

3. Paranin A. V. Raschet raspredeleniya toka i temperatury v kontaktnoy podveske postoyannogo toka na osnove metoda konechnykh elementov [Calculation of the distribution of current and temperature in the DC catenary on the basis of the finite element method]. Vestnik VNIIZhT [Vestnik of the Railway Research Institute], 2015, no. 6, pp. 33 – 38.

4. Marskiy V. E., Kosarev A. B. Opredelenie nagruzochnoy sposobnosti kontaktnykh podvesok postoyannogo toka i ikh elementov. Sb. tr. VNIIZhT [Determination of the load capacity of DC catenary and its elements]. Novoe v khozyaystve elektrosnabzheniya [New in the electricity supply business. Proc. of the VNIIZhT]. Moscow, Intext Publ., 2003, pp. 123 – 127.

5. Raschet elektrotekhnicheskikh parametrov kontaktnoy seti. Skhemnye i konstruktivnye resheniya po kontaktnoy seti uchastka Moskva — Kazan' vysokoskorostnoy zheleznodorozhnoy magistrali Moskva — Kazan' — Ekaterinburg [Calculation of electrical parameters of the contact network. Schematic and constructive solutions for the contact network of the Moscow — Kazan section of the Moscow — Kazan — Ekaterinburg high-speed railway]. AO “Universal — kontaktnye seti” [JSC “Universal — contact networks”]. St. Petersburg, 2016, 105 p.

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Improving of the Electrothermal Characteristics of the Contact Line;VIII International Scientific Siberian Transport Forum;2020