Журналы →  Non-ferrous Мetals →  2018 →  №1 →  Назад

ECONOMICS AND MANAGEMENT OF PRODUCTION
Название Analysis of the state and prospects of the development of the freight wagon fleet of the Republic of Uzbekistan
DOI 10.17580/nfm.2018.01.02
Автор Rahimov R. V., Ruzmetov Ya. O.
Информация об авторе

Emperor Alexander I St. Petersburg State Transport University, St. Petersburg, Russia:

R. V. Rahimov, Doctoral Student, е-mail: rakhimovrv@yandex.ru

 

Tashkent Institute of Railways Engineering, Tashkent, Uzbekistan:
Ya. O. Ruzmetov, Associate Professor, е-mail: yadgor.ruzmetov@yandex.ru

Реферат

As is known, the economic indicators of any metallurgical process, especially in non-ferrous metallurgy, depend primarily on transportation costs. Transport costs include the delivery of ore from the quarry to the mining and processing plant, and then the delivery of metals to the metallurgical enterprises for the production of semi-finished or finished products. Naturally, the reduction of transportation costs is an important task, which depends on the fleet of wagons of railway companies. The current state and structure of the railway wagons fleet of Uzbekistan, which are currently experiencing a deficit of a serviceable fleet of freight wagons, are analyzed. To replenish the fleet of freight wagons, the wagon-building plants of the Republic of Uzbekistan every year increase their production capacities and also master and launch in mass production new types of freight wagons with an axle load of 23.5 tons. To determine the directions of the wagon fleet development of the Republic of Uzbekistan, the analysis of the existing Russian and foreign freight rolling stock has been carried out. Comparative characteristics of technical and economic parameters of domestic freight wagons and foreign production showed that freight wagons produced by domestic wagon building plants with an axle load of 23.5 tons are inferior in technical and economic parameters to wagons of foreign production, the metal structure of which is made with the use of high-strength steels and aluminum alloys and the load from the axis of the wheel set to the rails is 32–35 tons. Formulated the main proposals on the development and introduction of perspective freight wagons with increased axial load are developed with the use of modern construction materials on the railways of Uzbekistan, the implementation of which will significantly increase the throughput and carrying capacity of railways, reduce maintenance costs and specific fuel and energy resources consumption for traction trains, as well as increase the level of localization of products.

Ключевые слова JSC “Uzbekiston temir yo’llari”, freight wagons, wagon fleet, technical and economic parameters, axle load, wagon building, high-strength steels, aluminum alloys, prospective wagon, railway transport infrastructure
Библиографический список

1. Miklushevskiy D. V., Mansurov S. Yu., Piterskaya T. N., Mansurov Yu. Economy and innovation management of universities. Tsvetnye Metally. 2015. No. 9. pp. 6–12.
2. Andreeva A. A., Mansurov S. Yu., Miklushevskiy D. V., Mansurov Yu. N. Model of formation of innovation process for large industrial enterprises. Tsvetnye Metally. 2015. No. 3. pp. 74–77.
3. Mansurov Yu. N., Reva V. P., Mansurov S. Yu., Beloborodov M. V. Economic and social basis of material science development in the Far East. Tsvetnye Metally. 2016. No. 11. pp. 88–93.
4. Strategy of development of JSC “Uzbekiston temir yo’llari” for the period 2015–2019.
5. Resolution of the President of the Republic of Uzbekistan of 21.12.2010, No. PP-1446 “On accelerating the development of infrastructure, transport and communication construction in 2011–2015”.
6. Resolution of the President of the Republic of Uzbekistan of 06.03.2015, No. PP-2313 “On the Program for Development and Modernization of the Engineering, Communication and Road Infrastructure for 2015–2019”.
7. Decree of the President of the Republic of Uzbekistan of 04.03.2015, No. UP-4707 “On the Program of Measures to Ensure Structural Transformation, Modernization and Diversification of Production for 2015–2019”.
8. Concept of development of the Office of wagon economy of JSC “Uzbekiston temir yo’llari” for 2017–2021.
9. Rahimov R. V. Researches of the stressed – deformed state of the open wagon body model 12-9922, produced in Uzbekistan. VI International Scientific Conference “Transport Problems 2014”. Katowice: Silesian University of Technology Faculty of Transport, 2014. pp. 614–621.
10. Rasulov M. Kh., Rizaev A. N., Rahimov R. V. Theoretical studies to determine the strength characteristics of the body of the cement wagon of the Republic of Uzbekistan. Innovatsionniy transport. Ekaterinburg, 2016. No. 4. pp. 43–47.
11. Rahimov R. V., Khatamov S. A., Rakhmatov Z. X. Scientific substantiation of technical solutions for the improvement of the construction of the body of a hopper car for transportation of cement produced in the Republic of Uzbekistan. “European Science Review” Scientific journal. Austria, Vienna, 2017. No. 3–4. pp. 13–17.
12. Boronenko Yu. P. Wagons with increased loads from the wheels to the rails – a reserve to increase the carrying capacity and throughput of railways. Transport Rossiyskoy Federatsii. 2008. No. 5. pp. 52–55.
13. Bityutsky A. A. Ways to improve the efficiency of freight wagons produced by Russian wagon-building enterprises. Tyazheloe mashinostroenie. 2008. No. 2. pp. 29–33.
14. Sokolov A. M., Orlova A. M. The axial load of 27 tons is a new milestone in the development of wagon building. Vagony i vagonnoe khozyaystvo. 2016. No. 3. pp. 5–7.
15. Konyukhov A. D., Efimov V. P. High-strength steels and alloys for bodies of freight wagons. Tyazheloe mashinostroenie. 2006. No. 12. pp. 31–34.
16. Khilov I. A. Substantiation of the possibility of using high-strength steel grades in the construction of wagons operated on Russian railways. Tyazheloe mashinostroenie. 2010. No. 7. pp. 36–39.
17. Boronenko Yu. P., Filippova I. O. Use of high-strength steels in wagon building. Transport Rossiyskoy Federatsii. 2015. No. 3. pp. 16–19.
18. Boronenko Yu. P. Strategic tasks of wagon builders in the development of heavy traffic. Transport Rossiyskoy Federatsii. 2013. No. 5. pp. 68–73.
19. Bisht S. Higher axle loads on existing tracks – Opportunity to improve utilization. Proceedings of the 11th International Heavy Haul Association Conference (IHHA 2017), Cape Town, South Africa, 2–6 September 2017. pp. 464–469.
20. Hewson D. J., Gräbe P. J., Shaw F. J. Track structure design: Breaking the narrow gauge 30-ton barrier. Proceedings of the 11th International Heavy Haul Association Conference (IHHA 2017), Cape Town, South Africa, 2–6 September 2017. pp. 472–479.
21. Aksenov A. A., Mansurov Yu. N., Ivanov D. O., Kadyrova D. S. Foam aluminium for small business in the Far East. Tsvetnye Metally. 2017. No. 4. pp. 81–85.
22. Belov N. A., Eskin D. G., Aksenov A. A. “Multicomponent Phase Diagrams: Applications for Commercial Aluminum Alloys, Elsevier, 2005. 414 p.
23. Boronenko Yu. P., Filippova I. O. Choice of constructive solutions of elements of wagons with a small mass of tare. Nauka ta progress transportu. 2017. No. 3. pp. 121–129.
24. Rahimov R. V. Choice of directions of development of railway wagon fleet of Uzbekistan. Transport Rossiyskoy Federatsii. 2018. No. 1. pp. 71–74.
25. Konyukhov A. D., Zhuravleva L. V., Shurtakov A. K. Extruded aluminum panels – perspective material for wagon bodies. Vagony i vagonnoe khozyaystvo. 2007. No. 2. pp. 36–38.
26. Rudnev V. S., Nedozorov P. M., Yarovaya T. P., Mansurov Yu. N. Local plasma and electrochemical oxygenating on the example of AMg5 (АМг5) alloy. Tsvetnye Metally. 2017. No. 1. pp. 59–64.

Полный текст статьи Analysis of the state and prospects of the development of the freight wagon fleet of the Republic of Uzbekistan
Назад