Currently, a project for organizing the transportation of perishable freights by “Cold Express” trains is under development, which is a new transport product aimed at delivering food, agricultural raw materials and other highly profitable goods to cities where regular container trains are impractical. The article discusses the economic efficiency of the investment project for organizing the transportation of freights in regular refrigerated container trains on the example of the Vladivostok—Moscow—St. Petersburg route, taking into account the arrangement of at least 18 container sites capable of handling transit container trains. Transportation according to the “Cold Express” concept involves the delivery of freights on the Vladivostok— Moscow—St. Petersburg route to associated large cities by container train loaded with refrigerated and insulated containers, according to a developed schedule with a known arrival and departure time. Capacity of the freight transportation market on the pilot route of the “Cold Express” is 2.0 million tons with the development of transportation in both directions when reaching the design capacity. Freight traffic will be formed by 23 stops on the route, 2 port hubs, 2 border land crossings with a traffic size of 7 pairs of trains per week. As part of the project, an assessment was made of the need for the local reconstruction of passing stations and equipping them with new ones or refurbishing existing container terminals. At the same time, the commissioning of these terminals is supposed to be gradual within 7 years of the project, which also allows gradually increasing the freight base and improving the quality of transportation. The article presents the results of calculations of the commercial efficiency of the project for the Russian Railways as the owner of the infrastructure, carrier and operator of these container terminals, which show its high prospects. Even with an incomplete train load predicted due to uneven density of freight traffic, the net discounted payback period is 10 years.
A target function has been developed for solving the problem of increasing the carrying capacity of loaded lines by organizing the motion of connected (double) trains on an ongoing basis, providing for the minimization of investment and operating costs. Conditions of constant circulation of connected trains on the Skovorodino—Smolyaninovo line section of the Trans-Siberian Railway, where the prospective freight flows exceed the available carrying capacity, are considered. All solutions are designed especially for this section. It is taken into account that the main investments for the implementation of the new method are related to the development of stations for working with connected trains, as well as to strengthening the power supply system for driving connected trains of double mass. Additional operating costs are determined by the need to perform various technological operations with connected trains. Estimated number of connected trains Nрасч has been established to ensure the required long-term carrying capacity. In order to save costs, the value of N расч is minimized on the basis of comparing the values of the maximum possible number of connected as well as single trains with the required carrying capacity on different sections of the line. The article considers methodology for the placement of stations for connecting/disconnecting trains, maximally combined with stations for changing locomotive crews, which provides savings in investment and operating costs. The optimal one was chosen from three possible options of such stations placement. Two schematic diagrams of stations for connecting/disconnecting trains are considered — with sequential and parallel execution of operations. It is shown that the minimization of costs is ensured by the sequential (flow) execution of these operations. In order to save investments, the development of a technical design for the implementation of a new method should provide the possibility of using auxiliary stations for connecting/disconnecting trains and changing locomotive crews of auxiliary stations with more favorable topographic conditions and the location of the station buildings for its development. Specific proposals on this issue are given for the considered line section of the Trans-Siberian Railway. Taking into account the current provisions, a method has been developed for calculating the operating fleet of locomotives handling connected trains, the size of which is minimized. Organization of the driving of connected trains on an ongoing basis ensures the effective development of the prospective freight traffic.
Stable operation of railway transport is of decisive importance in the development of the country's economy. Railway stations of the Russian Railways network perform a significant amount of work on processing and handling train traffic.Large technical stations on the Russian Railways network in most cases are located at the junction of railways (railway polygons), where locomotive crews and locomotives changes take place as well as various types of traction (electrified lines with direct and alternating current).With the development of polygon technologies on the Russian Railways network, it becomes necessary to optimize the traction resource management process to ensure the stable operation of train traffic from its origin to the point of its destination. At technical stations with locomotive turnover points, they are changed, as well as maintenance (TO-2) and equipment.The article discusses in more detail one of the elements of the daily budget for the use of locomotives — finding locomotives in one of the types of downtime — at the locomotive maintenance point. As an example of the queuing of traction resources, the point of maintenance of locomotives of the Karymskaya station is given, where the stalls for performing TO-2 are one of the types of devices of the locomotive economy, according to which the available capacity of the locomotive circulation section is determined. Based on the analysis of the results of the operation of the locomotive maintenance point of the Karymskaya station for 2017, a method has been developed that allows, using in the calculations the minimum interval for the supply of trains to the station, to determine the rational number of stalls mст, necessary for the development of promising volumes of freight transportation and increasing the capacity of railway lines.
Introduction. One of the ways to increase the traffic-carrying capacity of railway lines is increasing the amount of cargo carried in cars, while taking into account the inevitable increase in the axial and linear load of the car. The decision to use cars with increased axial load should be based on an assessment of their technical and economic efficiency in comparison with the innovative and widely used open-box wagons with a load of 25 tonnes per axle. When assessing the economic efficiency of such cars, it is required to consider their impact on changes in the parameters of the organisation of the transportation process.Materials and methods. Based on the presented initial data on the estimated predicted freight flow, the numerical values of the parameters of the transportation process were determined when introducing 8- and 4-axle (27 t/axle) open-box wagons. When determining the increase in the traffic-carrying capacity, its change due to an increase in the net mass of the train and a change in the total number of trains is taken into account. The calculation was made accounting for the increase in traction in proportion to the increase in the gross mass of the 8- and 4-axle (27 t/axle) open-box wagon trains on the existing infrastructure.Results. The authors have developed methodological provisions to determine the numerical values: an increase in the traffic- carrying capacity, the required inventory fleet of cars and the available locomotive fleet in the context of the introduction of new 8- and 4-axle (27 t/axle) open-box wagons.Discussion and conclusion. The article is theoretical and is devoted to calculation mechanisms and methodological issues. The results of the study may be applied to the ranges of the Russian Railways network, in particular, to solve complex issues of increasing the traffic-carrying capacity of the Eastern range.
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