Abstract
This study analyzes the performance of a queue length-dependent overload control policy using a leaky bucket (LB) scheme. This queueing model is applied to the operation of a battery swapping and charging station for electric vehicles (EVs). In addition to the LB scheme, we propose two congestion control policies based on EV queue length thresholds. With these policies, the model determines both EV-arrival and battery-supply intervals, and these depend on the number of EVs waiting in the queue. The queue length distributions, including those at arbitrary epochs, are derived using embedded Markov chain and supplementary variable methods. Performance measures such as blocking probability and mean waiting time are investigated using numerical examples. We study the characteristics of the system using numerical examples and use a cost analysis to investigate situations in which the application of each congestion control policy is advantageous.
Funder
National Research Foundation of Korea
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development
Reference29 articles.
1. Electric Vehicle Charging Management–Battery Charging vs. Swapping in Densely Populated Environments
https://smartgrid.ieee.org/newsletters/october-2019/electric-vehicle-charging-management-battery-charging-vs-swapping-in-densely-populated-environments
2. Prediction of Electric Vehicle Range: A Comprehensive Review of Current Issues and Challenges
3. Autonomous Battery Swapping System and Methodologies of Electric Vehicles
4. The Faster, Cheaper, Better Way to Charge Electric Vehicles
https://www.wired.com/story/the-faster-cheaper-better-way-to-charge-electric-vehicles
5. Battery Swapping: The Future of Electric Vehicle Charging
http://www.forbesindia.com/blog/technology/battery-swapping-the-future-of-electric-vehicle-charging
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