能源互联网下智能电网的调度策略研究

摘    要

本文在能源互联网背景下，针对智能电网的调度策略进行了深入研究。首先，介绍了能源互联网的基本概念、特点以及智能电网的组成与功能，并探讨了能源互联网与智能电网的融合发展。随后，分析了能源互联网下智能电网调度策略面临的主要问题，包括新能源发电的不稳定性与预测准确性问题、分布式能源接入带来的复杂性、储能技术的限制以及与传统发电方式的协调问题等。针对这些问题，本文提出了一系列优化改进策略。首先，通过加强新能源发电数据的收集与处理，结合先进的预测算法，提高新能源发电的预测准确性，为实时调度提供有力支持。其次，优化分布式能源接入管理，通过标准化与规范化接入流程、优化接入点设计与容量，以及加强接入过程中的安全与风险控制，实现分布式能源的高效利用。再次，发展高效储能技术，分析储能技术在智能电网中的集成策略、类型与特点，并进行经济性评估与优化，以缓解新能源发电的不稳定性。最后，通过优化发电资源配置与调度策略，调整电网调度策略以适应传统发电的需求，并探讨新能源发电对传统电价的影响及其平衡机制，实现传统发电与新能源发电的协调发展。本文的研究成果对于提高能源互联网下智能电网的调度效率、促进新能源的利用与发展具有重要意义，为智能电网的可持续发展提供了理论支持和实践指导。


关键词：能源互联网  智能电网  调度策略  


Abstract 
In this paper, under the background of energy Internet, the dispatching strategy of smart grid is deeply studied. Firstly, the basic concept and characteristics of energy Internet and the composition and function of smart grid are introduced, and the integration of energy Internet and smart grid is discussed. Then, the paper analyzes the main problems facing the smart grid scheduling strategy under the energy Internet, including the instability and prediction accuracy of new energy generation, the complexity brought by distributed energy access, the limitation of energy storage technology, and the coordination problem with traditional power generation. To solve these problems, this paper puts forward a series of optimization and improvement strategies. First of all, by strengthening the collection and processing of new energy power generation data, combined with advanced prediction algorithms, the prediction accuracy of new energy power generation can be improved to provide strong support for real-time scheduling. Secondly, optimize the distributed energy access management, and realize the efficient use of distributed energy by standardizing and standardizing the access process, optimizing the access point design and capacity, and strengthening the security and risk control during the access process. Thirdly, develop efficient energy storage technology, analyze the integration strategy, type and characteristics of energy storage technology in smart grid, and conduct economic evaluation and optimization to alleviate the instability of new energy power generation. Finally, by optimizing power generation resource allocation and scheduling strategies, the power grid scheduling strategies are adjusted to meet the needs of traditional power generation, and the impact of new energy generation on traditional electricity prices and its balance mechanism are discussed to achieve the coordinated development of traditional power generation and new energy power generation. The research results of this paper are of great significance for improving the dispatching efficiency of smart grid under the energy Internet, promoting the utilization and development of new energy, and providing theoretical support and practical guidance for the sustainable development of smart grid.


Keyword:Energy Internet  Smart grid  Scheduling strategy 




目    录
1引言 1
2能源互联网与智能电网概述 1
2.1能源互联网的基本概念与特点 1
2.2智能电网的组成与功能 2
2.3能源互联网与智能电网的融合发展 2
3能源互联网下智能电网调度策略存在的问题 3
3.1新能源发电的不稳定性与预测准确性问题 3
3.2分布式能源接入带来的复杂性 3
3.3储能技术的限制 4
3.4与传统发电方式的协调问题 4
4能源互联网下智能电网调度策略的优化改进 4
4.1提高新能源发电预测准确性 4
4.2优化分布式能源接入管理 5
4.3发展高效储能技术 6
4.4协调传统发电与新能源发电 7
5结论 8
参考文献 9
致谢 10