Abstract
Trolleybus systems are resurfacing as a steppingstone to carbon-neutral urban transport. With an eye on smart city evolution, the study and simulation of a proper monitoring system for trolleybus infrastructures will be essential. This paper merges the authors’ engineering knowledge and sources available in the literature on designing and modeling catenary-based electric traction networks and performs a critical review of them to lay the foundations for proposing possible optimal alternatives. A novel multi-vehicle motion-based model of the DC catenary system is then devised and simulated in Matlab-Simulink, which could prove useful in predicting possible technical obstacles arising from the next-future introduction of smart electric traction grids, inevitably featuring greater morphological intricacy. The modularity property characterizing the created model allows an accurate, detailed, and flexible simulation of sophisticated catenary systems. By means of graphical and numerical results illustrating the behavior of the main electrical line parameters, the presented approach demonstrates today’s obsolescence of conventional design methods used so far. The trolleybus network of the city of Bologna was chosen as a case study.
Highlights
The reduction of greenhouse gas (GHG) emissions is one of the greatest global challenges through 2050
A novel multi-vehicle motion-based model of trolleybus traction catenary systems was proposed in this work
Thanks to the availability of subsystem reference blocks in the Simulink built-in libraries, the presented catenary model was characterized by modularity as a strong point, which made it proficient in managing different traffic conditions and in reproducing actual contact line structures
Summary
The reduction of greenhouse gas (GHG) emissions is one of the greatest global challenges through 2050. Aside from GHG emissions, air pollution, such as nitrogen oxide and particulate matter emissions, has gained increasing attention in agglomerated areas, with transport vehicles being one of the main sources thereof [1]. Increasing awareness of climate change and the urgent need to prepare for a post-petrol era have prompted most of the world’s developed countries to investigate alternatives for transport systems that rely more on energy-efficient vehicles. Trolleybuses are buses that run on electricity provided by overhead wires, giving them the powerful traction inherent in rail modes (e.g., metro and light rail systems). Unlike these modes, they are cheaper to construct and have greater operational flexibility
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