随着人们生活水平的提高和能源需求的增加,电力系统的建设成为了一个迫切需要解决的问题.然而,由于各种因素的影响,传统配电网面临着许多问题,如线路老化、负荷变化大等,导致配电网的运行效率降低且安全隐患增多.因此,如何有效利用新型技术来改善现有的配电网已经成为了一个重要的研究方向.其中,分布式电源作为一种新兴的技术,具有高效率、灵活性强的特点,被广泛应用于各个领域.旨在分析分布式电源接入对配电网线损的影响,并对影响因素进行详细研究.首先,分析分布式电源接入容量、接入位置和运行方式对线损的影响.其次,根据分析结果提出相应的优化措施和调控策略,以降低线损,提高配电网的运行效率和可靠性.通过研究,可以为分布式电源接入的规划和运营提供理论依据与实践指导.最后,展望未来研究方向,为进一步优化配电网结构和提高能源利用效率提供思路.
With the advancement in living standards and the increasing demand for energy,the development of the power system has become an urgent issue that needs to be addressed.However,due to various factors,the traditional distribution network is facing many challenges,such as aging infrastructure and high load variations,which result in decreased operational efficiency and increased safety risks.Therefore,exploring how to effectively utilize new technologies to improve the existing distribution network has become a crucial research direction.Among these technologies,distributed power generation,as an emerging solution,boasts high efficiency and strong flexibility,and has been widely applied in various fields.This article aims to analyze the impact of distributed power generation on distribution network losses and conduct a thorough investigation into the influencing factors.Firstly,the impact of the capacity,location,and operation mode of distributed power generation on line losses will be analyzed.Secondly,corresponding optimization measures and control strategies will be proposed based on the analysis results,aiming to reduce losses and enhance the operational efficiency and reliability of the distribution network.Through this research,theoretical foundations and practical guidance can be provided for the planning and operation of distributed power generation integration.Lastly,future research directions will be outlined to provide insights for further optimizing the structure of the distribution network and increasing energy utilization efficiency.