Identifying the Separate Contributions of Electromagnetic and Wave-Induced Instability Mechanisms to the Overall Dynamic Instability in Hyperloop and Maglev Systems

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Abstract

The Hyperloop, a developing transportation system, reduces air resistance by housing the vehicle within a depressurized tube and eliminates contact friction by using an electro-magnetic suspension/levitation system. Maintaining system stability poses a challenge due to the exceptionally high target velocities. Consequently, it is important to know apriori the velocity regimes in which the system can be unstable. The authors have recently investigated this aspect by, unlike previous studies, properly accounting for the frequency and velocity dependent reaction force provided by the infinite guideway. Furthermore, that study focused on the interplay between two fundamentally different instability sources, namely (i) the electro-magnetic suspension, and (ii) wave-induced instability, showing that stability domains drastically change above a certain vehicle velocity. The current study presents a methodology to distinguish the contribution of each instability mechanism to the overall system stability, and demonstrates that the wave-induced instability mechanism is causing the drastic stability change at large vehicle velocities. This investigation offers physical insight into the mechanisms that can cause instability in the Maglev/Hyperloop systems, and can help engineers that develop this novel transportation system to avoid excessive vibrations and, in extreme cases, derailment.
Original languageEnglish
Number of pages13
DOIs
Publication statusPublished - 2024
EventThe Sixth International Conference on Railway Technology 2024: Research, Development and Maintenance - Faculty of Civil Engineering, Czech Technical University, Prague, Czech Republic
Duration: 1 Sept 20245 Sept 2024
https://www.civil-comp.info/2024/rl/

Conference

ConferenceThe Sixth International Conference on Railway Technology 2024
Abbreviated titleRAILWAYS 2024
Country/TerritoryCzech Republic
CityPrague
Period1/09/245/09/24
Internet address

Keywords

  • Hyperloop
  • magnetically-levitated vehicles
  • Maglev
  • dynamic stability
  • anomalous Doppler waves
  • moving-load dynamics

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