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基于风力发电电能输出稳定性优化策略可行性分析——以风力发电控制系统为例

Feasibility Analysis of Stability Optimization Strategy for Wind Power Generation Based on Control System: A Case Study

  • 摘要: 本文综合风力发电的发展现状以及优化方法,结合案例分析了目前优化电能输出质量的技术和方法。文章将重点讨论风力发电电能输出的质量问题,分析影响风力发电电能输出的因素,并探讨实现优化电能输出质量的技术和方法。随着可再生能源技术的快速发展,解决风力发电能源输出质量稳定性的问题成为优化能源使用效率的必经之路,通过控制风机、优化风电场布局、改善储能电池组等方式已成为清洁能源发电领域的热门技术。在发展这些技术的同时,必须同步考虑如何提高电池储能以及电能转化效率,采用智能控制系统和储能设备等方法,可以有效地提高风力发电的电能输出质量,使其逐渐成为更为主流的清洁电力来源,本篇论文从多个角度探究了不同的方法和技术来优化电能输出质量。

     

    Abstract: This article comprehensively analyses the development status and optimization methods of wind power generation, and combines case studies to analyze the current technologies and methods for optimizing electrical energy output quality. This article focuses on the quality issues of wind power electrical energy output and discusses the factors that affect wind power electrical energy output, as well as exploring the technologies and methods to achieve optimized electrical energy output quality. With the rapid development of renewable energy technology, solving the problem of the stability of wind power energy output quality has become a necessary pathway for optimizing energy utilization efficiency. Controlling wind turbines, optimizing wind farm layouts, and improving storage battery groups have become popular technologies in the field of clean energy generation. While developing these technologies, it is necessary to simultaneously consider how to improve the energy storage of batteries and energy conversion efficiency. By using intelligent control systems and storage devices, wind power electrical energy output quality can be effectively improved, making it gradually become a more mainstream source of clean energy. This paper explores various methods and technologies from multiple angles to optimize electrical energy output quality.

     

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