新型工业用自燃微波等离子体射流的设计与研制

A. Sadeghfam, Alireza Sadeghi-Ahangar, A. Elgamal, H. Heuermann
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引用次数: 1

摘要

本文介绍了一种新型的、紧凑的、可用于工业应用的自点燃微波等离子体射流的设计、研制和实验结果。在现场模拟的基础上,利用等离子体运行过程中测量得到的等离子体射频等效电路,建立了多级匹配网络,实现了微波等离子体射流的良好匹配。带有波导输入端口的2.45 GHz微波等离子体炬工作于2kw的大气等离子体,非常适合于仅使用空气的各种工业应用。从波导端口到等离子体炬的能量转换约为90%。这不仅通过提供更高的功率、激活率和生产速度,增强了目前等离子体在表面处理等方面的应用,而且还实现了切割、快速加热和焊接等新应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Development of a Novel Self-Igniting Microwave Plasma Jet for Industrial Applications
This paper presents the design, development and experimental results of a novel, self-igniting compact and straightforward microwave plasma jet for industrial applications. Based on field simulations and supported by plasma RF equivalent circuits derived from measurements of the plasma during operation, a multi-staged matching network is developed to achieve the well matched microwave plasma jet presented. The 2.45 GHz microwave plasma torch with a waveguide input port operates is an atmospheric plasma with 2 kW and is well suited for various industrial applications by using air only. The energy conversion from the waveguide port to the plasma torch is approximately 90%. This not only enhances present plasma applications in e.g. surface treatment by offering higher power capabilities, activation rates and production speed, but also enables new applications such as cutting, rapid heating, and welding.
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