考虑路径耗时的城市汽车分布式充电桩选点规划

doi:10.13229/j.cnki.jdxbgxb.20220475

Abstract

Abstract:

Aiming at the problem that there is a single factor local solution limitation in the planning of charging piles， a distributed planning algorithm for urban vehicles considering the path time-consuming is proposed. From the two dimensions of space and time， the vehicle's charging load requirements are analyzed， and the charging peak time is obtained as one of the planning reference conditions. Collect the queuing data of electric vehicle charging on urban roads through GIS technology， establish the objective function with the shortest path time， calculate the queuing probability value and the current power peak value in different time periods of the day， derive the power steady state equation， and solve the load The objective function， the threshold for the minimum power peak and the minimum probability of queuing， are used as planning goals. The power path and driving path calculation is implemented for road lines and underground power lines， and the optimal solution is continuously iteratively searched until the target value is met and the calculation is completed. Experiments show that the number of iterations required by the proposed algorithm to achieve the objective function is 275 times. And after the charging piles are planned and selected by this method， it can ensure that the power distribution of each node is even， the planning scheme is in line with the actual operation situation， the adaptability is strong， and the calculation amount required by the algorithm is small.

Key words: transportation system engineering, path time consuming, charging peak, objective function, distributed charging pile, routing

CLC Number:

U491.1

Jian-hua LI,Ze-ding WANG. Planning of urban car distributed charging pile point selection considering path time-consuming[J].Journal of Jilin University(Engineering and Technology Edition), 2023, 53(8): 2298-2303.

Figures/Tables 3

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Planning of urban car distributed charging pile point selection considering path time-consuming

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