基于电压源变换器的燃料电池与电网集成及其控制

Q3 Energy
S. Arya, Nunsavath Sharath Kumar, Ashutosh K. Giri, A. Qureshi
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引用次数: 0

摘要

由于电网负荷的增加,电压和频率的控制变得非常困难。此外,非线性家用电器也导致了与电压和电流相关的电能质量问题。为了分担电网的负担,提高终端用户的电能质量,作者提出了一种新的拓扑结构,该拓扑结构由燃料电池和电压源变换器(VSC)组成,作为配电静态补偿器(DSTATCOM)连接在负载和电源的公共耦合点上。采用前向后向最小均方(FBLMS)算法对VSC进行控制。在该算法中,期望信号和估计信号的误差分别在正向和反向进行计算。根据前向路径误差计算平均误差。此外,利用有源权重分量和无功权重分量计算栅极脉冲产生的参考源电流。在实验室环境下用一台样机对整个系统进行了仿真和验证,结果令人满意。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fuel cell integration with grid using voltage source converter and its control
Due to increased burden on the grid, voltage and frequency control becomes very difficult. Moreover, nonlinear domestic appliances are also contributing towards power quality problems related with voltage and current. To share the burden of grid and for increasing the power quality at the end users authors have proposed new topology comprising fuel cell along with voltage source converter (VSC) used as distribution static compensator (DSTATCOM) connected in shunt at point of common coupling of load and source. To control the VSC, forward backward least mean square (FBLMS) algorithm is used. In this algorithm, error between desired and estimated signal is calculated in both forward and backward directions. The average error is calculated based on forward path error. Further, the active weight components and the reactive weight components are used to calculate reference source current for gate pulse generation. The complete system is simulated and validated in the laboratory environment with one prototype, the results are satisfactory.
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来源期刊
International Journal of Power and Energy Conversion
International Journal of Power and Energy Conversion Energy-Energy Engineering and Power Technology
CiteScore
1.60
自引率
0.00%
发文量
8
期刊介绍: IJPEC highlights the latest trends in research in the field of power generation, transmission and distribution. Currently there exist significant challenges in the power sector, particularly in deregulated/restructured power markets. A key challenge to the operation, control and protection of the power system is the proliferation of power electronic devices within power systems. The main thrust of IJPEC is to disseminate the latest research trends in the power sector as well as in energy conversion technologies. Topics covered include: -Power system modelling and analysis -Computing and economics -FACTS and HVDC -Challenges in restructured energy systems -Power system control, operation, communications, SCADA -Power system relaying/protection -Energy management systems/distribution automation -Applications of power electronics to power systems -Power quality -Distributed generation and renewable energy sources -Electrical machines and drives -Utilisation of electrical energy -Modelling and control of machines -Fault diagnosis in machines and drives -Special machines
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