Simulation and Experimental Investigation into a Photovoltaic and Fuel Cell Hybrid Integration Power System for a Typical Small House Application

Hakim Djoudi; Nabil Benyahia; Abderrezak Badji; Amar Bousbaine; Riad Moualek; Said Aissou; Nacereddine Benamrouche

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Simulation and Experimental Investigation into a Photovoltaic and Fuel Cell Hybrid Integration Power System for a Typical Small House Application

机译：典型小房屋应用的光伏和燃料电池混合集电力系统模拟与实验研究

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The paper addresses the simulation of a novel realtime implementation of a photovoltaic (PV) and fuel cell (FC) hybrid integration power system. The hybrid system has the potential of reducing the dependency on batteries, leading to reduced cost and increased life span of the whole system using the Proton Exchange Membrane (PEM) fuel cell. The interface structure of the hybrid system has been explored incoiporating the Maximum Power Point Technique (MPPT) for maximum power extraction. The simulation of the hybrid system including fuel cell, PhotoVoltaic panels (PVs) and battery has been carried out using SimPowerSystems. An innovative Real Time Interface (RTI) approach using the concept of the Hardware-In-the-Loop (HIL) has been presented for a fast dynamic response of a closed loop control of the hybrid system. The corroboration of the hybrid system is validated experimentally, using a real photovoltaic panel connected to a PEM fuel cell emulator and battery. The PVs are controlled by the perturbation and observation Maximum Power point (MPP) technique and the PEM fuel cell is controlled through a boost DC-DC converter using current mode control. The whole system is implemented on the dSPACE 1103 platform for realtime interface and control strategies. The overall behavior of the hybrid system has been critically analyzed and corroboration of the simulated and experimental results have been presented.

机译：本文解决了光伏（PV）和燃料电池（FC）混合集成电力系统的新型实时实现的模拟。混合系统具有降低电池依赖性的可能性，从而使用质子交换膜（PEM）燃料电池降低了整个系统的成本和增加的寿命。混合系统的界面结构已经探讨了集中的最大功率点技术（MPPT）以进行最大功率提取。使用SimPowersystems进行包括燃料电池，光伏板（PVS）和电池的混合系统的仿真。已经提出了一种创新的实时界面（RTI）方法，用于使用硬件循环（HIL）的概念进行混合系统的闭环控制的快速动态响应。通过连接到PEM燃料电池仿真器和电池的真正光伏面板，实验验证混合系统的核化。 PVS由扰动和观察最大功率点（MPP）技术控制，并且使用电流模式控制通过升压DC-DC转换器控制PEM燃料电池。整个系统是在DSPACE 1103平台上实现的，用于实时接口和控制策略。杂交系统的总体行为已经严重分析，并呈现了模拟和实验结果的纠正。

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来源
《Electric Power Components and Systems》 |2020年第15期|1598-1613|共16页
作者
Hakim Djoudi; Nabil Benyahia; Abderrezak Badji; Amar Bousbaine; Riad Moualek; Said Aissou; Nacereddine Benamrouche;
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作者单位

LATAGE Laboratory Mouloud Mammeri University of Tizi-Ouzou Tizi-Ouzou Algeria;

French Naval Academy EA 3634 IRENav Brest France;

LATAGE Laboratory Mouloud Mammeri University of Tizi-Ouzou Tizi-Ouzou Algeria IRIMAS Laboratory Haute Alsace University Mulhouse France;

College of Engineering and Technology University of Derby Derby UK;

LATAGE Laboratory Mouloud Mammeri University of Tizi-Ouzou Tizi-Ouzou Algeria;

LATAGE Laboratory Mouloud Mammeri University of Tizi-Ouzou Tizi-Ouzou Algeria;

LATAGE Laboratory Mouloud Mammeri University of Tizi-Ouzou Tizi-Ouzou Algeria;

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原文格式 PDF
正文语种 eng
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关键词
PEM Fuel cell; photovoltaic; battery; emulator; hybrid system; integrated;

机译：PEM燃料电池;光伏;电池;仿真器;混合系统;融合的;

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Simulation and Experimental Investigation into a Photovoltaic and Fuel Cell Hybrid Integration Power System for a Typical Small House Application

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