采用高电压增益dc-dc转换器拓扑结构的电厂- e技术增强发电能力

Q4 Energy

International Journal of Electrical Engineering and Technology Pub Date : 2020-04-11 DOI:10.34218/ijeet.11.4.2020.020

S. S. Mary

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引用次数: 0

摘要

电力需求。在本文中，植物动力的概念是基于活植物中的植物微生物燃料电池技术(P-MFC技术)与细菌一起产生原位电力。在这里，植物排泄有机物，并被土壤中的微生物分解。在这个击穿过程中，电子被释放出来。利用这种释放的电子，可以通过插入电极将其转化为电能来收获它们，而不会以任何方式影响植物的生长。本文的目的是利用高电压增益的DC-DC升压变换器拓扑结构来增强可再生电力。该配置包括一个开关，两个混合电压倍增器单元和一个闭环三绕组耦合电感器。通过使用耦合电感的两个次级绕组，转换器的电压增益得到增强，从而降低了功率元件的应力，从而提供恒定的直流输出电压。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ENHANCED POWER GENERATION FROM PLANTS PLANT-E TECHNOLOGY USING HIGH VOLTAGE GAIN DC-DC CONVERTER TOPOLOGY

demands of electricity. In this paper, the Plant Power concept is based on the living plants in plant microbial fuel cell technology (P-MFC technology) along with bacteria to produce in-situ electricity. Here the plant excretes the organic matter and is broken down by microorganisms in the soil. In this breakdown process, electrons are released. By using this released electron it is possible to harvest them by inserting electrodes and turn them into electricity, without affecting the plant's growth in any way. The aim of the paper is to enhance the renewable electricity by using high voltage gain DC-DC boost converter topology. This configuration includes a single switch, two hybrid voltage multiplier cells and a closed loop three winding coupled inductor. The voltage gain of the converter is enhanced by using its two secondary windings of the coupled inductor, which decreases the stress of power components to deliver a constant dc output voltage.

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International Journal of Electrical Engineering and Technology Energy-Energy Engineering and Power Technology

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