摘 要
随着全球能源结构的转型,光伏发电作为一种清洁、可再生的能源形式,在铁路系统中的应用日益受到关注。本研究旨在通过科学的设计和优化储能配置,提高铁路贯通线光伏系统的供电可靠性和经济效益。为实现这一目标,我们采用了先进的模拟软件对光伏系统的发电量进行了精确预测,并结合铁路线路的实际情况,设计了一种新型的光伏阵列布局方案。优化后的光伏系统设计方案能够有效提升发电量,而智能储能配置策略则显著增强了系统的供电稳定性。这一研究成果不仅有助于推动铁路系统的绿色转型,也为类似工程提供了宝贵的实践经验和技术参考。
关键词:铁路贯通线光伏系统设计 储能配置优化 光伏发电量预测
Abstract
With the transformation of the global energy structure, photovoltaic power generation, as a clean and renewable form of energy, has attracted increasing attention in the railway system. The aim of this study is to improve the power supply reliability and economic benefit of the photovoltaic system of railway through line by scientific design and optimization of energy storage configuration. In order to achieve this goal, we use advanced simulation software to accurately predict the power generation of photovoltaic system, and combined with the actual situation of railway lines, we design a new photovoltaic array layout scheme. The optimized PV system design scheme can effectively increase the power generation, and the intelligent energy storage configuration strategy significantly enhances the power supply stability of the system. This research result not only helps to promote the green transformation of railway system, but also provides valuable practical experience and technical reference for similar projects.
Keyword:Design of photovoltaic system for railway through line Optimization of energy storage configuration Photovoltaic power generation
目 录
1绪论 1
1.1研究背景及意义 1
1.2国内外研究现状 1
2铁路贯通线光伏系统设计基础 1
2.1光伏系统的基本原理 1
2.2铁路贯通线光伏系统的特殊性 2
2.3光伏系统的设计要素 2
3储能配置的关键技术与策略 3
3.1储能技术的概述与分类 3
3.2适用于铁路贯通线的储能技术 3
3.3储能容量的计算与优化 4
3.4储能系统的安全性与可靠性分析 4
4光伏与储能系统的整合与优化 5
4.1光伏与储能系统的接口设计 5
4.2能量管理与调度策略 5
4.3系统效率与稳定性分析 6
4.4经济性与环境影响评估 6
5结论 7
参考文献 8
致谢 9
