Abstract
Braking time in a moving train at standard speeds has become a critical variable that increasingly concerns the industry. The present paper discusses the possible option of temperature variation to cut down the response time of the whole pneumatic braking system in a train installation. A pneumatic system, considered equivalent to the system existing in a real train, was experimentally analyzed to account for the time and characteristics of a sonic pressure wave moving in the pipes. The available system behavior was compared for two different air temperatures. The obtained results point to a relevant temperature effect on the pressure wave transmission, which may promote time or distance shortening in a standard braking process. Although in the experimental campaign only two initial temperatures could be set, the study shows a possible research path for future improvements. A parallel theoretical calculation corrected by the effect of the relevant elements in the pipes was performed to allow a comparison with the experiments.
Highlights
Changing the Pressurized AirModern trains are among the safest modes of transportation currently in use
The first solutions involved the direct effect of the direct human force to the more advanced method, which applied the use of the pneumatic force as a first improvement; see [3,4]
The piston is connected to a brake shoe, which can rub on the train wheel and by creating friction, stopping the train
Summary
Modern trains are among the safest modes of transportation currently in use Referring to their main braking systems, many improvements are still possible. The preliminary ideas and description of the present study were developed under a more global study to redefine the time–distance braking conditions for standard-speed trains [17]. This approach is based on the compressed air brake and does not include the more modern and recent high-speed trains, which normally include more sophisticated solutions, namely magnetic-based brakes [18]. To the authors’ knowledge, the possible option of temperature influence in the braking time has not been widely studied
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