A Novel Hybrid MPPT Controller for PEMFC Fed High Step-Up Single Switch DC-DC Converter

IF 1.9 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

International Transactions on Electrical Energy Systems Pub Date : 2024-03-12 DOI:10.1155/2024/9196747

Shaik Rafikiran, C. H. Hussaian Basha, C. Dhanamjayulu

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引用次数: 0

Abstract

At present, there are different types of Renewable Energy Resources (RESs) available in nature which are wind, tidal, fuel cell, and solar. The wind, tidal, and solar power systems give discontinuous power supply which is not suitable for the present automotive systems. Here, the Proton Exchange Membrane Fuel Stack (PEMFS) is used for supplying the power to the electrical vehicle systems. The features of fuel stack networks are very quick static response, plus low atmospheric pollution. Also, this type of power supply system consists of high flexibility and more reliability. However, the fuel stack drawback is a nonlinear power supply nature. As a result, the functioning point of the fuel stack varies from one position to another position on the V-I curve of the fuel stack. Here, the first objective of the work is the development of the Grey Wolf Optimization Technique (GWOT) involving a Fuzzy Logic Controller (FLC) for finding the Maximum Power Point (MPP) of the fuel stack. This hybrid GWOT-FLC controller stabilizes the source power under various operating temperature conditions of the fuel stack. However, the fuel stack supplies very little output voltage which is improved by introducing the Single Switch Universal Supply Voltage Boost Converter (SSUSVBC) in the second objective. The features of this proposed DC-DC converter are fewer voltage distortions of the fuel stack output voltage, high voltage conversion ratio, and low-level voltage stress on switches. The fuel stack integrated SSUSVBC is analyzed by selecting the MATLAB/Simulink window. Also, the proposed DC-DC converter is tested by utilizing the programmable DC source.

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用于 PEMFC 供电高升压单开关 DC-DC 转换器的新型混合 MPPT 控制器

目前，自然界有风能、潮汐能、燃料电池和太阳能等不同类型的可再生能源（RES）。风能、潮汐能和太阳能发电系统提供的是不连续的电力供应，不适合目前的汽车系统。在这里，质子交换膜燃料堆（PEMFS）被用来为汽车电气系统供电。燃料堆网络的特点是静态响应非常快，而且对大气污染小。此外，这种供电系统还具有高灵活性和更高的可靠性。不过，燃料堆的缺点是供电性质非线性。因此，燃料堆的工作点会在燃料堆 V-I 曲线上的不同位置发生变化。在此，工作的第一个目标是开发灰狼优化技术（GWOT），其中涉及一个模糊逻辑控制器（FLC），用于寻找燃料堆的最大功率点（MPP）。这种混合 GWOT-FLC 控制器可在燃料堆的各种工作温度条件下稳定源功率。然而，燃料堆提供的输出电压非常低，通过在第二个目标中引入单开关通用电源升压转换器（SSUSVBC），可以改善这一问题。这种直流-直流转换器的特点是燃料堆输出电压畸变小、电压转换率高、开关承受的电压压力低。通过选择 MATLAB/Simulink 窗口，对燃料堆集成 SSUSVBC 进行了分析。此外，还利用可编程直流源对所提出的直流-直流转换器进行了测试。

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来源期刊

International Transactions on Electrical Energy Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

6.70

自引率

8.70%

发文量

342

期刊介绍： International Transactions on Electrical Energy Systems publishes original research results on key advances in the generation, transmission, and distribution of electrical energy systems. Of particular interest are submissions concerning the modeling, analysis, optimization and control of advanced electric power systems. Manuscripts on topics of economics, finance, policies, insulation materials, low-voltage power electronics, plasmas, and magnetics will generally not be considered for review.