Dynamic Simulation on Stainless Steel New Generation Passenger Coach using Multibody Dynamic System Method
DOI:
https://doi.org/10.37367/jpi.v6i2.224Keywords:
Multibody Dynamic Simulation, Passenger Coach, Bogie Design, Train Stability, Train ComfortAbstract
Stainless steel passenger coach is the most operated passenger coach in Indonesia. Because it has better facilities, cheap, and offering more operation hour. Stainless steel passenger coach fabricated by PT.Industri Kereta Api (PT.INKA) and always improve and keep innovate from generation to generation. At this time, This passenger coach being upgraded to reach the speed more than 120 Km/h and keep the ride quality and ride comfort index and called as stainless steel new generation (SS-NG) passenger coach. To reach the target one of the method is re-design the structure of bogie. The purpose of this research is to analyzing design of the SS-NG bogie, on SS-NG passenger coach using multibody dynamic simulation to studying rolling stock dynamic and compare it with existence bogie dynamic of SS-2018 passenger coach. The result of the simulation show the SS-NG bogie design give vertical and lateral ride comfort index appropriate to Sperling comfort index on center of carbody, center of front and rear bogie while operating at 240 Km/h.
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References
Andersson, E., Berg, M., & Stichel, S. (2014). Rail Vehicle Dynamics. Stockholm: Kungtiha Tekniska Hogskolan.
Dizo, J., & Blatnicky, M. (2016). Use Of Multibody System Dynamics As A Tool For Rail Vehicle Behaviour Diagnostics. PTDT, Vol.17 No.2, 9-16.
Dizo, J., Blatnicky, M., & Skocilasova, B. (2015). Computational Modelling of the Rail Vehicle Multibody system of a rail vehicle bogie with a flexible body. Communications, 31-36.
European Standard 14363, Railway Application – testing and simulation for the acceptance of running characteristics of railway vehicles – running behavior and stationary test, 2019
Kalivoda, J., & Neduzha, L. (2019). Simulation Of Safety Against Derailment Tests of An Electric Locomotive. 25th International Conferences (pp. 177-180). Svratka: Engineering Mechanics 2019.
Keskin, K., & Karamancioglu, A. (2017). Train Motion Dynamic Model Choices. International Symposium on Electrical Railway Transportation Systems (pp. 27-29). Eskisehir: Research Gate.
Liu, X., Saat, M. R., & Barkan, C. P. (2012). Analysis of Causes of Major Train Derailment and Their Effect on Accident Rates. Transportation Research Board, Vol.1 No.2289, 154-163.
Mihai, L., & Dumitriu, M. (2018). Correction Between Ride Comfort Indeks and Sperling's Index for Evaluation Ride Comfort in Railway Vehicles. Trans Tech Publications, Vol. 880, 201-206.
Polach O. (2005). On Non-Linear Methods of Bogie Stability Assessment Using Computer Simulations. Proc. IMechE, Vol. 220, 13-27.
Logawa, H. (2020, 8 31). review-ka-mengenal-kereta-penumpang hudalogawa.blogspot.com:http://hudalogawa.blogspot.com/2020/08/review-ka-mengenal-kereta-penumpang.html . Diakses pada November, 2021.
Iwnicki, S. (2006). Handbook of Railway Vehicle Dynamic 1st Edition. Paris: Taylor & Francis Group.
M.Lestari (2013). Pengaruh getaran terhadap penumpang kereta berdasarkan sperling's ride index. Repository UI
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