Development of high voltage electric pulse charging and discharging device based on functional materials

IF 0.9 Q3 COMPUTER SCIENCE, THEORY & METHODS
Fang Zhou
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引用次数: 0

Abstract

As a relatively mature energy storage technology, charge/discharge devices are bound to develop significantly in the contemporary society among them energy is increasingly scarce. The traditional charging and discharging device is not smart enough, slow charging and discharging and other shortcomings have limited its further high-speed development. The application of functional materials and high-voltage pulse technology can drive the further development of charging and discharging devices. In this study, a safe, low-cost, functional material with high adsorption capacity was developed. At the same time, this functional material is applied to the charging and discharging device to improve the storage capacity and discharge efficiency of the device. In addition, we combine high-voltage electric pulse technology with charging and discharging technology to improve the charging and discharging rate of the charging and discharging device. It has certain guidance and reference values for the development of high-voltage electric pulse charging and discharging devices. According to the test results, the dynamic adjustment time of the charging module output current is only 20ms, and the dynamic adjustment response time of the discharging module input current is about 0.14s. The device provides a new idea for the development of high-voltage electric pulse charging and discharging equipment.
基于功能材料的高压脉冲充放电装置的研制
充放电装置作为一种相对成熟的储能技术,在能源日益紧缺的当代社会必将得到长足发展。传统的充放电装置不够智能、充放电速度慢等缺点限制了其进一步的高速发展。功能材料和高压脉冲技术的应用可以推动充放电器件的进一步发展。本研究开发了一种安全、低成本、具有高吸附能力的功能材料。同时将该功能材料应用于充放电装置中,提高了装置的存储容量和放电效率。此外,我们将高压电脉冲技术与充放电技术相结合,提高了充放电装置的充放电速率。对高压电脉冲充放电装置的研制具有一定的指导和参考价值。根据测试结果,充电模块输出电流的动态调整时间仅为20ms,放电模块输入电流的动态调整响应时间约为0.14s。该装置为高压电脉冲充放电设备的研制提供了新的思路。
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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来源期刊
3C Tic
3C Tic COMPUTER SCIENCE, THEORY & METHODS-
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审稿时长
12 weeks
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