基于单级变换器的太阳风混合系统的实时实现

V. Rajini, W. M. Amutha
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引用次数: 5

摘要

日益严重的环境污染、偏远地区电力短缺以及对更多能源的需求促使我们寻求新能源。风能和太阳能混合能源因其丰富、互补、易于获得和可转换的特性而受到欢迎。对于混合太阳能-风系统,每个源使用DC-AC或单独的DC-DC转换器。它们将根据需要连接到AD-DC或普通DC-DC链路上馈电负载。这种独立的转换器具有很高的元件数量,使系统庞大而复杂。本文利用MATLAB/SIMULINK对分体式buck变换器和集成太阳能-风能可再生能源与备用电池的单级buck变换器进行了性能比较,以充分利用其工作特性,实现结构紧凑、效率高的目标。FPGA控制器被编程为在公共耦合点保持恒定功率。还设计了一种基于嵌入式控制器的在线充电状态估计和电池充电系统,以根据负载需求适当地吸收或来源输入功率。以峰值功率为1.5kW的太阳能系统、峰值功率为1.4 kW的风力系统、48V、200 Ah的铅酸蓄电池为1200瓦直流负载供电的实时实现为例,验证了理论方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Real time implementation of a single stage converter based solar-wind hybrid system
Increasing environmental pollutions, lack of power in remote places and demand for more energy makes us to seek new energy sources. Wind and solar hybrid energy have being popular ones owing to abundant, complement nature, ease of availability and convertibility to the electric energy. For hybridizing solar-wind system DC-AC or separate DC-DC converters are used one for each source. They will be connected to AD-DC or common DC-DC link to feed the loads according to the requirements. Such separate converters have the high count of elements and makes the system bulky and complex. This paper presents the performance comparison between separate cuk and buck converter and a single stage cuk-buck converter that integrates solar-wind renewable energy with battery backup using MATLAB/SIMULINK, to make best use of their operating characteristics and to achieve compactness and higher efficiency. FPGA controller is programmed for maintaining constant power at point of common coupling. An embedded controller based online state of charge estimation and battery charging system to suitably sink or source the input power based on the load demand is also carried out. Real time implementation of solar system with 1.5kW peak power, wind system with 1.4 kW and 48V, 200 Ah Lead-Acid batteries for powering 1200 Watts DC load is carried out to validate the theoretical approach.
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