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Design of Intelligent Controller for Hybrid PV/Wind Energy Based Smart Grid for Energy Management Applications
IOP Conference Series: Materials Science and Engineering Pub Date : 2021-02-20 , DOI: 10.1088/1757-899x/1055/1/012129
D Sarathkumar 1 , M Srinivasan 1 , Albert Alexander Stonier 2 , Ravi Samikannu 3 , D Vijay Anand 4
Affiliation  

This article deals in the modelling of intelligent controller for the Hybrid photovoltaic (PV)/Wind based smart grid system. With the development of solid state electronics also power systems intelligent techniques like neural networks, fuzzy logic, expert systems take part an essential contribution in design of controller for the smart grid. The above techniques give potential tools for design and development of fault detection controller in the advanced smart grid (SG). The intelligent techniques attained in rapid evolution during previous decades and their utilization now increased rapidly in current industrial environment. Renewable energy integration, participation of customers, performance optimization is important key features of digital grid power systems. In this article presents in new method of digital grid for hybrid photovoltaic/Wind based smart grid system were developed. It consists of solar PV array systems, wind power systems, asynchronous generator, converters, MPPT systems, fuzzy logic controllers (FLC). The model was performed through MATLAB/SIMULINK environment. The dynamic performance in presented model was tested in various operating conditions. Sunlight Irradiation, heat and rate of wind statistics was collected in a power grid combined solar PV model placed in main system. In this proposed simulation model also in supervision scheme give an appropriate tool for optimization of smart grid performance.



中文翻译:

用于能源管理应用的基于混合光伏/风能的智能电网的智能控制器设计

本文涉及基于混合光伏(PV)/风能的智能电网系统的智能控制器的建模。随着固态电子技术的发展,神经网络、模糊逻辑、专家系统等智能技术也为智能电网的控制器设计做出了重要贡献。上述技术为先进智能电网 (SG) 中故障检测控制器的设计和开发提供了潜在的工具。在过去的几十年里,智能技术得到了快速发展,现在它们的应用在当前的工业环境中迅速增加。可再生能源并网、客户参与、性能优化是数字电网电力系统的重要关键特征。本文介绍了基于混合光伏/风能的智能电网系统的数字电网新方法。它由太阳能光伏阵列系统、风力发电系统、异步发电机、转换器、MPPT系统、模糊逻辑控制器(FLC)组成。该模型通过 MATLAB/SIMULINK 环境进行。所提出模型的动态性能在各种运行条件下进行了测试。在放置在主系统中的电网组合太阳能光伏模型中收集阳光照射、热量和风速统计数据。在这个提出的仿真模型中,也在监督方案中为优化智能电网性能提供了合适的工具。该模型通过 MATLAB/SIMULINK 环境进行。所提出模型的动态性能在各种运行条件下进行了测试。在放置在主系统中的电网组合太阳能光伏模型中收集阳光照射、热量和风速统计数据。在这个提出的仿真模型中,也在监督方案中为优化智能电网性能提供了合适的工具。该模型通过 MATLAB/SIMULINK 环境进行。所提出模型的动态性能在各种运行条件下进行了测试。在放置在主系统中的电网组合太阳能光伏模型中收集阳光照射、热量和风速统计数据。在这个提出的仿真模型中,也在监督方案中为优化智能电网性能提供了合适的工具。

更新日期:2021-02-20
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