The influence of resistant force equations and coupling system on long train dynamics simulations

Bosso, Nicola; Magelli, Matteo; Bartoli, Lorenzo; Zampieri, Nicolò

doi:10.1177/09544097211001149

Cited by 12 publications

(7 citation statements)

References 41 publications

(39 reference statements)

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“…Several expressions are used in the literature for the calculation of the ordinary resistant forces [19]. In the present work, the expression suggested in the international benchmark of LTD simulators is adopted, since it features an explicit dependency on the number of vehicle axles and on the axle load, see Eq.…”

Section: Ltd Modelmentioning

confidence: 99%

A numerical method for the simulation of freight train emergency braking operations based on the UIC braked weight percentage

2023

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The present paper shows the development of a strategy for the calculation of the air brake forces of European freight trains. The model is built to upgrade the existing Politecnico di Torino longitudinal train dynamics (LTD) code LTDPoliTo, which was originally unable to account for air brake forces. The proposed model uses an empirical exponential function to calculate the air brake forces during the simulation, while the maximum normal force on the brake friction elements is calculated according to the indication of the vehicle braked weight percentage. Hence, the model does not require to simulate in detail the fluid dynamics in the brake pipe nor to precisely know the main parameters of the braking system mounted on each vehicle. The model parameters are tuned to minimize the difference between the braking distance computed by the LTDPoliTo code and the value prescribed by the UIC 544-1 leaflet in emergency braking operations. Simulations are run for different configurations of freight train compositions including a variable number of Shimmns wagons trailed by an E402B locomotive at the head of the train, as suggested in a reference literature paper. The results of the proposed method are in good agreement with the target braking distances calculated according to the international rules.

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Section: Ltd Modelmentioning

confidence: 99%

A numerical method for the simulation of freight train emergency braking operations based on the UIC braked weight percentage

2023

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“…At this initial stage of the activity, the simple model briefly described above is developed to check the reliability of the monitoring system. However, an upgrade of the model is planned by combining a detailed multibody model of a single vehicle and a longitudinal train dynamics code, able to better simulate the vehicle dynamics behavior during braking operations [37][38][39][40].…”

Section: Physical Quantity Valuementioning

confidence: 99%

Simulation of the Thermal Behavior of Cast Iron Brake Block during Braking Maneuvers

2021

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In recent years, the interest in monitoring the operating conditions of freight wagons has grown significantly to improve the safety of railway vehicles. The railway research group of the Politecnico di Torino has been working for years on the development of solutions to effectively monitor the operating conditions of passenger and freight rail vehicles. As part of the national Cluster ITS Italy 2020 project funded by Italian ministry of education, university and research (MIUR), the Politecnico di Torino has collected a considerable amount of data thanks to the wired and wireless prototypes developed. The data obtained are used in this paper for the validation and calibration of a finite element (FE) model that simulates the temperature variation of a cast iron brake block due to braking operations of an intermodal freight wagon. The developed model can be a useful tool to predict the temperature at the wheel–shoe interface as a function of the current operating conditions since a direct measurement is not easy to perform.

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“…Propulsion resistance F Res is typically expressed by means of second-order polynomial equations as a function of the vehicle speed S veh , and among different expressions witnessed in the literature [38][39][40], the Davis' formula is adopted in this work:…”

Section: Battery Pack Sizingmentioning

confidence: 99%

Feasibility study of a diesel-powered hybrid DMU

et al. 2021

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Nowadays, the interest in hybrid vehicles is constantly increasing, not only in the automotive sector, but also in other transportation systems, to reduce pollution and emissions and to improve the overall efficiency of the vehicles. Although railway vehicles are typically the most eco-friendly transportation system, since commonly their primary energy source is electricity, they can still gain benefits from hybrid technologies, as many lines worldwide are not electrified. In fact, hybrid solutions allow ICE-powered (internal combustion engine) railway vehicles, such as diesel multiple units (DMUs), to operate in full-electric mode even when the track lacks electrification. The possibility to switch to full electric mode is of paramount importance when the vehicle runs on urban or underground track sections, where low or zero emission levels are required. We conduct the feasibility study of hybridization of an existing DMU vehicle, designed by Blue Engineering S.r.l., running on the Aosta–Torino Italian railway line, which includes a non-electrified urban track section and an electrified underground section. The hybridization is obtained by replacing one of the diesel generators installed on the original vehicle with a battery pack, which ensures the vehicle to operate in full-electric mode to complete its mission profile. The hybridization is also exploited to implement a regenerative braking strategy, which allows an increase in the energetical efficiency of the vehicle up to 18%. This work shows the sizing of the battery pack based on dynamic simulations performed on the Turin underground track section, and the results demonstrate the feasibility of the hybridization process.

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The influence of resistant force equations and coupling system on long train dynamics simulations

Cited by 12 publications

References 41 publications

A numerical method for the simulation of freight train emergency braking operations based on the UIC braked weight percentage

A numerical method for the simulation of freight train emergency braking operations based on the UIC braked weight percentage

Simulation of the Thermal Behavior of Cast Iron Brake Block during Braking Maneuvers

Feasibility study of a diesel-powered hybrid DMU

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