Multilayer communication network architecture for wind power farm

Shahid Hussain, Young-Chon Kim
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引用次数: 8

Abstract

Wind is a sustainable renewable energy source, which has recently gained high popularity among the renewable energy sources. The high maintenance and repair cost of wind turbine needs real-time monitoring and control through networks. Network communication infrastructures play important roles for the real-time monitoring and control of wind power farms because these farms are located at remote and harsh environment sites. This paper proposes multilayer communication network architecture for monitoring and controlling of wind power farms which consists of wind power farm layer, local control center layer, regional control center layer, central control center layer and neighbor control center layer. Based on the logical node concept of IEC 61400-25 standard, wind turbine is modeled and simulated by four different information including analogue measurements, status information, protection and control information, and meteorological mast information through OPNET modular. The performance of the proposed network architecture is evaluated in terms of link bandwidth and latency.
风电场多层通信网络体系结构
风能是一种可持续的可再生能源,近年来在可再生能源中获得了很高的知名度。风电机组维护维修成本高,需要通过网络进行实时监控。由于风力发电场地处偏远、环境恶劣的地区,网络通信基础设施对风力发电场的实时监测和控制起着重要作用。本文提出了用于风电场监控的多层通信网络架构,该架构由风电场层、本地控制中心层、区域控制中心层、中央控制中心层和邻居控制中心层组成。基于iec61400 -25标准的逻辑节点概念,通过OPNET模块,采用模拟测量信息、状态信息、保护控制信息和气象桅杆信息四种不同信息对风力机进行建模和仿真。所提出的网络架构的性能是根据链路带宽和延迟来评估的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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