Influence of the shape of the anode assembly inner channel on plasma flow velocity

Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki Pub Date : 2024-04-13 DOI:10.26907/2541-7746.2024.1.58-73

R. Okulov, V. A. Krashaninin, B. R. Gelchinsky, A. Rempel

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Abstract

This article considers how the shape of the inner channel in the anode assembly affects plasma flow velocity in a plasma torch. Three different shapes of the anode assembly were analyzed, all with a conical confusor part of 50 mm in length: with a diameter transition from 12 to 6 mm, from 12 to 8 mm, and from 12 to 10 mm. A computer experiment was performed using the finite element method and then validated by the subsequent full-scale experiment on a laboratory plasma unit. The obtained results were verified. The verification outcomes showed a satisfactory convergence and were consistent with the published data. A review of the existing plasma unit designs for powder production, application of functional coatings, and surface modification was carried out. The software packages implementing the finite element method to solve these problems were examined. The study yielded practical recommendations for consumers and developers of plasma equipment and identified the shapes of the anode assembly enabling both supersonic and subsonic plasma flow regimes.

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阳极组件内通道形状对等离子流速的影响

本文探讨了阳极组件内通道的形状如何影响等离子体割炬中的等离子体流速。文章分析了三种不同形状的阳极组件，它们都带有一个长度为 50 毫米的锥形混淆器部件：直径分别从 12 毫米过渡到 6 毫米、从 12 毫米过渡到 8 毫米以及从 12 毫米过渡到 10 毫米。使用有限元方法进行了计算机实验，并通过随后在实验室等离子装置上进行的全尺寸实验进行了验证。获得的结果得到了验证。验证结果表明收敛性令人满意，并且与公布的数据一致。对现有用于粉末生产、功能涂层应用和表面改性的等离子装置设计进行了审查。研究还考察了采用有限元法解决这些问题的软件包。研究为等离子体设备的消费者和开发商提供了实用建议，并确定了可实现超音速和亚音速等离子体流动状态的阳极组件形状。

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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Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki

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