智能电网用基于空间电磁能的无线集能转换器拓扑与优化方法研究

项目名称： 智能电网用基于空间电磁能的无线集能转换器拓扑与优化方法研究

项目编号： No.51307103

项目类型： 青年科学基金项目

立项/批准年度： 2014

项目学科： 电工技术

项目作者： 王冠

作者单位： 山东大学

项目金额： 25万元

中文摘要： 基于电磁能的传感器自供能技术，具有明显的技术优势，在智能电网中应用前景广阔。本项目针对无线传感器自供能技术的关键科学问题，开展理论探索与技术创新研究。提出新型的球形电容式集能转换器拓扑结构，实现集能拓扑的建模方法和结构参数的优化方法；研究高传输效率、低能耗的电能调理与存储单元拓扑及其参数设计方法；提出环绕式和分离式两种磁能转换器拓扑结构，实现变电站内电场能与磁场能的综合利用；研制自供能系统的实验样机，开展多种工况的输出特性与效率特性测试研究，为仿真建模与优化分析提供基础依据；引入外界电磁场变化、集能转换器拓扑参数、调理电路元件损耗等影响因素，建立表征自供能系统性能的多变量耦合关系方程，提出兼顾技术性与经济性的综合优化策略与设计方法。本项目以实验研究为基础，结合理论分析与数值仿真，系统研究基于电磁能的自供能技术关键问题，具有重要的学术意义和应用价值。

中文关键词： 智能电网；空间电磁能；无线集能转换器；拓扑设计；自供能技术

英文摘要： Energy scavenging technology has obvious technical advantages, which can achieve energy from electromagnetic field for powering sensors. It has broad prospects in the future for smart grid. For the key scientific problems about powering wireless sensors, this project will carry out some theoretical explorations and technological innovations. A new capacitive topology with spherical cap is proposed. Modeling of the scavenging topology and optimization of structural parameters are realized. Methods of topology and parameters about storage unit and conditioning circuit with high transmission efficiency and low power consumption are designed. Two types of magnetic energy converters, namely armillary and standalone, are proposed respectively, to achieve the comprehensive utilization of the electric and magnetic energy within the substations. The experimental prototype of power self-supply system is developed to carry out the tests about the output and efficiency characteristics under different conditions, and to provide the foundation for simulation modeling and optimization. Taking the changing electromagnetic field outside the system, the topological parameters of the converter and the elements' loss of the conditioning circuit into account, the multi-variable coupling equations are established to describe the perf

英文关键词： Smart Grid；Spatial Electromagnetic Energy；Wireless Energy Harvesting Converter；Topology Design；Energy Scavening Technology