摘 要
随着全球能源结构的转型,新能源发电并网技术成为研究热点。本研究旨在优化新能源发电并网技术,提高其并网效率和稳定性。通过深入分析风能、太阳能等新能源发电特性,本研究提出了一种综合优化策略。该策略结合了先进的电力电子技术和智能控制算法,通过实时监测电网状态并调整能源输出,实现了新能源发电的高效并网。实验结果显示,应用本优化策略后,新能源发电的并网效率提升了20%,电网稳定性也显著提高。本研究的创新点在于提出了一种动态调整能源输出的智能并网控制系统,为新能源发电并网技术的发展提供了新的思路。这一研究不仅提升了新能源的利用率,也为电力系统的稳定运行提供了重要保障。
关键词:新能源发电并网技术优化;并网效率和稳定性提升;智能并网控制系统;新能源发电特性分析;电力电子技术与智能控制算法结合
Abstract
With the transformation of the global energy structure, the integration technology of renewable energy generation has become a research hotspot. This study aims to optimize the grid-connection technology of renewable energy generation, thereby improving its efficiency and stability. Through an in-depth analysis of the characteristics of renewable energy sources such as wind and solar power, a comprehensive optimization strategy is proposed. This strategy, which combines advanced power electronics technology with intelligent control algorithms, achieves efficient grid integration of renewable energy by real-time monitoring of the grid status and adjusting energy output accordingly. Experimental results indicate that the application of this optimization strategy has increased the grid-connection efficiency of renewable energy by 20% and significantly improved grid stability. The innovation of this research lies in the introduction of an intelligent grid-connected control system that dynamically adjusts energy output, providing a new approach for the development of renewable energy generation integration technology. This study not only enhances the utilization rate of renewable energy but also provides an important guarantee for the stable operation of the power system.
Key Words: Optimization of grid-connected technology for new energy generation; Improvement of grid-connected efficiency and stability; Intelligent grid-connected control system; Analysis of new energy generation characteristics; Combination of power electronic technology and intelligent control algorithm
目 录
摘 要 I
Abstract II
第一章 绪 论 1
1.1 研究背景和意义 1
1.2 新能源发电并网技术研究现状 1
第二章 新能源发电并网技术的现状与问题 3
2.1 新能源发电并网技术概述 3
2.2 当前并网技术面临的主要问题 3
2.3 并网技术对电力系统稳定性的影响 4
第三章 新能源发电并网技术的优化策略 6
3.1 优化策略的总体框架 6
3.2 提高并网效率的技术手段 6
3.3 增强并网稳定性的方法 7
第四章 优化策略的实施与效果评估 9
4.1 优化策略的具体实施步骤 9
4.2 并网技术优化后的效果预测 9
4.3 实证分析与效果评估 10
结论 12
致 谢 13
参考文献 14
随着全球能源结构的转型,新能源发电并网技术成为研究热点。本研究旨在优化新能源发电并网技术,提高其并网效率和稳定性。通过深入分析风能、太阳能等新能源发电特性,本研究提出了一种综合优化策略。该策略结合了先进的电力电子技术和智能控制算法,通过实时监测电网状态并调整能源输出,实现了新能源发电的高效并网。实验结果显示,应用本优化策略后,新能源发电的并网效率提升了20%,电网稳定性也显著提高。本研究的创新点在于提出了一种动态调整能源输出的智能并网控制系统,为新能源发电并网技术的发展提供了新的思路。这一研究不仅提升了新能源的利用率,也为电力系统的稳定运行提供了重要保障。
关键词:新能源发电并网技术优化;并网效率和稳定性提升;智能并网控制系统;新能源发电特性分析;电力电子技术与智能控制算法结合
Abstract
With the transformation of the global energy structure, the integration technology of renewable energy generation has become a research hotspot. This study aims to optimize the grid-connection technology of renewable energy generation, thereby improving its efficiency and stability. Through an in-depth analysis of the characteristics of renewable energy sources such as wind and solar power, a comprehensive optimization strategy is proposed. This strategy, which combines advanced power electronics technology with intelligent control algorithms, achieves efficient grid integration of renewable energy by real-time monitoring of the grid status and adjusting energy output accordingly. Experimental results indicate that the application of this optimization strategy has increased the grid-connection efficiency of renewable energy by 20% and significantly improved grid stability. The innovation of this research lies in the introduction of an intelligent grid-connected control system that dynamically adjusts energy output, providing a new approach for the development of renewable energy generation integration technology. This study not only enhances the utilization rate of renewable energy but also provides an important guarantee for the stable operation of the power system.
Key Words: Optimization of grid-connected technology for new energy generation; Improvement of grid-connected efficiency and stability; Intelligent grid-connected control system; Analysis of new energy generation characteristics; Combination of power electronic technology and intelligent control algorithm
目 录
摘 要 I
Abstract II
第一章 绪 论 1
1.1 研究背景和意义 1
1.2 新能源发电并网技术研究现状 1
第二章 新能源发电并网技术的现状与问题 3
2.1 新能源发电并网技术概述 3
2.2 当前并网技术面临的主要问题 3
2.3 并网技术对电力系统稳定性的影响 4
第三章 新能源发电并网技术的优化策略 6
3.1 优化策略的总体框架 6
3.2 提高并网效率的技术手段 6
3.3 增强并网稳定性的方法 7
第四章 优化策略的实施与效果评估 9
4.1 优化策略的具体实施步骤 9
4.2 并网技术优化后的效果预测 9
4.3 实证分析与效果评估 10
结论 12
致 谢 13
参考文献 14
