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Abstract
This paper proposes a two-stage scheduling strategy for large-scale electric vehicles to reduce the adverse impact of the uncontrolled charging of the electric vehicles on the grid. Based on the statistical data of private car travel, the uncontrolled charging demand of individual electric vehicles and their aggregation are simulated. In the first stage, the electric vehicles and thermal power units are jointly scheduled. To minimize the total cost and standard deviation of the total load curve, the charging and discharging load guiding curve of the electric vehicles and the optimal output plans of the thermal power units in each period of the scheduled day are formulated. In the second stage, the electric vehicle load management and control centre formulates specific charging and discharging plans for the users through rolling optimization to follow the guiding load curve. The cost of vehicle discharge compensation is considered to improve the willingness of users to participate in scheduling and the user satisfaction. To avoid the “dimension disaster” caused by the centralized dispatching of large numbers of electric vehicles, the K-means clustering algorithm is used to divide the vehicles into different groups. Next, each group is scheduled as a unit, and the model is solved by using the particle swarm optimization algorithm. By comparing the optimization results of different scenarios, the feasibility and effectiveness of the proposed strategy are verified.
Highlights
Promoting the use of electric vehicles (EVs) is one of the important approaches to realize the replacement of electric energy
The uncontrolled charging behaviour of a large number of electric vehicles may increase the peak-valley difference in the load, reduce the power quality, reduce the economy of operation of the power networks, and even threaten the safe and stable operation of the power system [1]–[3]
Table 4. presents the comparison of several indicators in each scenario: It can be seen from Table 4 that the uncontrolled charging behaviour of 20,000 EVs increases the load of scenario 1 compared with the original base load, and the peak-tovalley difference and the standard deviation become larger
Summary
Promoting the use of electric vehicles (EVs) is one of the important approaches to realize the replacement of electric energy. According to the basic load and the information of the vehicle groups, the dispatching centre formulates the thermal power unit output plans for the scheduled day and the charging and discharging load guiding curve of the EVs in different periods. B. REALIZATION FLOW OF ELECTRIC VEHICLE SCHEDULE CONTROL STRATEGY The strategy proposed in this paper can be summarized as in the following steps: Step 1: The owners of the EVs submit the drive plans, charging demands and dispatch modes for the scheduled day to the electric vehicle load management and control centre. The power grid dispatching centre formulates the thermal power units output plans and the charging and discharging load guiding curve of EVs for the scheduled day, based on the basic load and the information of each group.
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