Model for electrification of urban public transport lines with supercapacitor buses: A case study of Belgrade

In this paper, a cost-oriented model for implementing e-buses equipped with supercapacitors in urban public transport was developed and tested. This model simultaneously determines the optimal locations for fast charger installation, their power ratings, capacity of supercapacitors, e-bus charging s...

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Bibliographic Details
Published in:Applied energy 2025-01, Vol.377, p.124670, Article 124670
Main Authors: Stokić, Marko, Dimitrijević, Branka
Format: Article
Language:English
Subjects:
case studies
computer simulation
cost effectiveness
data quality
electricity
electrochemical capacitors
energy
Energy consumption
Facility location
Fast charger power
Implementation costs
landscapes
public transportation
Serbia
Supercapacitor capacity
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Summary:In this paper, a cost-oriented model for implementing e-buses equipped with supercapacitors in urban public transport was developed and tested. This model simultaneously determines the optimal locations for fast charger installation, their power ratings, capacity of supercapacitors, e-bus charging schedules in operation, and the amount of electricity transmitted to e-buses by chargers. IGNITE simulation software was used for modeling and simulating e-bus operation. The model was tested and validated with actual data from four bus lines in Belgrade (Serbia), presently with diesel-powered standard buses in operation, resulting in cost efficient solutions. Comparative analysis of implementation costs of e-buses with supercapacitors and LFP batteries was conducted. A sensitivity analysis of solutions was performed using both actual energy consumption data (based on recorded speed data, terrain configuration, and auxiliaries consumption impact), and average energy consumption. The sensitivity analysis demonstrated that input data quality significantly affects obtained solutions, as well as the sustainability and functionality of the urban public transport system. The impact of maximum e-bus charging times at bus stops and termini on passenger comfort was also considered, along with the impact of energy savings on the total implementation costs of supercapacitor e-buses. •Cost-oriented model for supercapacitor e-buses implementation in urban transport.•Optimized charger locations, power ratings, and e-bus charging schedules.•Comprehensive energy consumption simulated using IGNITE software.•Model verification with real operation data from Belgrade case study.•Solutions involving supercapacitor e-bus are efficient, flexible and cost-effective.
ISSN:0306-2619
DOI:10.1016/j.apenergy.2024.124670