摘 要
本文旨在深入探讨可再生能源发电并网调度问题及其优化策略。首先概述了可再生能源发电的定义、特点及类型,为后续分析提供了理论基础。接着,详细阐述了可再生能源发电并网的技术原理,包括能源转换、电力电子转换技术及电网接口与保护等方面。在此基础上,深入分析了可再生能源发电并网调度中面临的主要问题,如储能转换效率不高、储能技术种类繁多、电网规划适应性不足及电能质量下降等。针对这些问题,本文提出了推动标准化和模块化、建设储能示范项目、更新电网规划理念及加强电能质量监测等优化策略。这些策略旨在提升可再生能源发电并网调度的效率和稳定性,促进可再生能源的可持续发展。本研究对于推动可再生能源发电技术的广泛应用和电网的智能化升级具有重要意义。
关键词:可再生能源;并网调度;优化策略
Abstract
This paper aims to deeply discuss the grid-connected dispatching problem of renewable energy power generation and its optimization strategy. Firstly, the definition, characteristics and types of renewable energy generation are summarized, which provides a theoretical basis for the subsequent analysis. Then, the technical principle of renewable energy generation is elaborated in detail, including energy conversion, power electronic conversion technology and grid interface and protection. On this basis, the main problems in the grid connection dispatching of renewable energy power generation are deeply analyzed, such as unreasonable ownership structure, various types of energy storage technologies, insufficient adaptability of power grid planning and the decline of power quality. In view of these problems, this paper puts forward optimization strategies such as promoting standardization and modularization, building energy storage demonstration projects, updating the concept of power grid planning and strengthening power quality monitoring. These strategies aim to improve the efficiency and stability of grid-connected scheduling of renewable energy generation and promote the sustainable development of renewable energy. This study is of great significance for promoting the wide application of renewable energy power generation technology and the intelligent upgrading of the power grid.
Key words: Renewable energy; grid-connected scheduling; optimization strategy
目 录
中文摘要 I
英文摘要 II
目 录 III
引 言 1
第1章、可再生能源发电相关概述 2
1.1、可再生能源发电的定义 2
1.2、可再生能源发电的特点 2
1.3、可再生能源发电的类型 2
第2章、可再生能源发电并网技术原理 4
2.1、能源转换原理 4
2.2、电力电子转换技术 4
2.3、电网接口与保护 4
第3章、可再生能源发电并网调度问题深入分析 6
3.1、储能转换效率不高 6
3.2、储能技术种类繁多 6
3.3、电网规划适应性不足 6
3.4、电能质量下降 7
第4章、可再生能源发电并网调度优化策略 8
4.1、推动标准化和模块化 8
4.2、建设储能示范项目 8
4.3、更新电网规划理念 8
4.4、加强电能质量监测 9
结 论 10
参考文献 11