Suboptimal Analysis of the Differential System of the Conceptual Trailer Air Brake Valve

Author:

Kisiel Marcin1ORCID,Szpica Dariusz2ORCID

Affiliation:

1. Doctoral School, Bialystok University of Technology, 45A Wiejska Str., 15-351 Bialystok, Poland

2. Faculty of Mechanical Engineering, Bialystok University of Technology, 45C Wiejska Str., 15-351 Bialystok, Poland

Abstract

Motivation: To increase the efficiency of the brake valve by adding a corrective member. Background: The speed of response and smooth transition between modes of operation in the braking system are the primary research questions. Objective and research question: Will the optimal selection of the input parameters of the differentiating part of a conceptual brake valve ensure the speed of operation and enable a smooth transition from the accelerating mode to the tracking mode? Methods: The mathematical model of the differentiating part of the brake valve uses the lumped method, and the solution was obtained by numerical means. Results: Within the assumed range of variation of spring stiffness and control piston bore throughput, the distribution maps of action times and piston lift were determined, and the optimal configuration of the analyzed input parameters was obtained by a genetic algorithm. Future research: future activities will focus on the development of a system of smooth variation of the throughput of the connecting chamber of the differential part of the valve. Conclusions: The determined maps of functional parameter distributions are the basis for the selection of components of the braking system; optimization indicates the directions of modification of the valve in order to obtain an acceptable performance system.

Publisher

MDPI AG

Reference45 articles.

1. (2024, July 05). Regulation No 13 of the Economic Commission for Europe of the United Nations (UN/ECE) Uniform Provisions Concerning the Approval of Vehicles of Categories M, N and O with Regard to Braking. Available online: http://data.europa.eu/eli/reg/2016/194/oj.

2. Electronic structural improvement and experimental verification of a tractor-semitrailer air brake system;Jing;Proc. Inst. Mech. Eng. Part D J. Automob. Eng.,2020

3. A simplified pneumatic model for air brake of passenger trains;Cantone;Railw. Eng. Sci.,2023

4. Krichel, S.V., and Sawodny, O. (2011, January 17–20). Dynamic modeling of pneumatic transmission lines in Matlab/Simulink. Proceedings of the International Conference on Fluid Power and Mechatronics, Beijing, China.

5. Determination of the functional and service characteristics of the pneumatic system of an agricultural tractor with mechanical brakes using simulation methods;Kulikowski;Eksploat. I Niezawodn.,2015

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