面向公路交通的光水互补自洽微网系统规划模型

A Study on the Planning of Photovoltaic-hydropower Complementary and Self-consistent Microgrid System for Road Transportation

师瑞峰 ¹王佳美 ²张杰 ³黄全胜 ⁴谭晓雨 ⁴毛宁 ⁴刘杰⁴

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作者信息

1. 交通运输部规划研究院交通排放控制监测技术实验室北京 100028;华北电力大学控制与计算机工程学院北京 102206
2. 华北电力大学控制与计算机工程学院北京 102206
3. 北京怀柔实验室新型电力系统研究中心北京 101400
4. 交通运输部规划研究院交通排放控制监测技术实验室北京 100028;交通运输部规划研究院北京 100028
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摘要

自2020年9月中国提出"碳达峰·碳中和"目标后,公路交通领域绿色转型发展成为亟待解决的重点任务.利用高速公路沿线清洁能源建立自洽微网系统,发展交通与能源一体化已成为减少碳排放、完成交通用能清洁化的必由之路.结合我国西部偏远地区公路交通系统难以接入大电网且光水资源丰富的特点,本文以偏远地区的独立交通微网为研究对象,研究了基于小水电的光水互补系统架构,并建立了基于该架构的公路交通光水互补自洽微网系统规划模型.提出了小水电为主导、光伏为辅助的光水互补系统控制运行策略;以系统经济性和供电稳定性最优为优化目标,采用粒子群优化算法进行了典型算例优化求解与研究方案对比分析,形成了面向公路交通的光水互补自洽微网系统规划推荐方案.研究结果表明:在光水互补方案中,系统的稳定供电率可以达到99.64％,相较于单一光伏电站供给方案,其综合年成本降低43.05万元,系统缺电率降低2.5％;相较于单一小水电站供给方案,其综合年成本仅增加1.53万元,而系统缺电率降低1.59％,验证了提出的光水互补自洽微网系统规划模型的有效性,为后续相关工程实践提供了参考借鉴.

Abstract

Since China proposed the"carbon peak and carbon neutrality"goals in September 2020,green transfor-mation and development in road transportation have become pressing.Utilizing clean energy along freeways to cre-ate self-consistent micro-network systems and integrating transportation with energy are vital for reducing carbon emissions and achieving clean energy usage in transportation.This paper focuses on independent transportation mi-cro-networks in remote western regions of China,where are featured by abundant solar and water resources but lim-ited access to the main power grid.It proposes a photovoltaic complementary system framework based on small hy-dropower and establishes a planning model for a self-consistent micro-network system for road transportation.More-over,the paper proposes a control and operation strategy for the complementary system,with small hydropower as the main source and photovoltaics as an auxiliary source.By optimizing the system economy and stability of power supply,the particle swarm optimization(PSO)algorithm is used to solve typical cases and conduct a comparative analysis of different schemes,resulting in a recommended planning scheme for a self-consistent micro-network sys-tem of road transportation.The research results indicate that:under the complementary scheme,the stable power supply rate can reach 99.64％;the overall annual cost is reduced by 430 500 CNY and the power shortage rate is re-duced by 2.5％comparing to a single photovoltaic power supply scheme;the overall annual cost increases by only 15 300 CNY but the system's power shortage rate is reduced by 1.59％comparing to a single small hydropower station supply scheme.These results validate the effectiveness of the proposed planning model for the comple-mentary and self-consistent micro-network system and provide a reference for subsequent engineering practices.

关键词

公路交通/交通能源融合/自洽微网系统/光水互补/粒子群优化算法/小水电站

Key words

road transportation/transportation-energy integration/self-consistent micro-network system/photovolta-ic-hydropower complementation/PSO algorithm/small hydropower station

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出版年

2024

交通信息与安全

武汉理工大学交通计算机应用信息网

交通信息与安全

CSTPCD北大核心

影响因子：0.598

ISSN：1674-4861

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