Research and Implementation of Numerical Simulation of Power Intensity in Neutral Beam Transport Based on QT Framework

2023 5th International Conference on Communications, Information System and Computer Engineering (CISCE) Pub Date : 2023-04-14 DOI:10.1109/CISCE58541.2023.10142512

Yuan Yuan, Xiaodan Zhang, L. Liang

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Abstract

The high-energy and stable neutral beam injector is a crucial auxiliary heating equipment for achieving plasma ignition in the tokamak of nuclear fusion devices. During experimental operations of the neutral beam injector, the beam must be extracted as far as possible without aberration through electrode acceleration, beam neutralization, ion deflection, and other processing. However, the inevitable aberration and space charge effects of the beam extraction system cause the beam to continuously diverge during transmission. Therefore, it is necessary to simulate the spatial distribution of beam transmission power based on set parameters before experiments. Thus, the thermal load of internal components of the neutral beam injector is obtained. These data can better guide actual physical experiments. In this paper, the Qt framework and C++ programming language are adopted to design and implement a numerical simulation software for the spatial distribution of neutral beam transmission power. The software has high interactivity and complete functionality, including a proposed model for beam power density deposition and a beam convergence model. The experimental simulation results are visualized using the QCustomPlot class and ECharts software, and the two-dimensional results are optimized based on the quadratic Bezier curve. Highlights of the study include the adoption of a new beam convergence model, the migration of the 3D coordinate transformation model into the beam convergence model through computational programming techniques, which makes the calculation of beam convergence more universal, and the addition of a smoothing function method to optimize simulation results. Through testing, the stability of the software has been demonstrated. This software provides data guidance for actual beam extraction experiments by simulating beam power deposition at different positions, valuate references for the optimization design of the neutral beam injector.

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基于QT框架的中性束流输运功率强度数值模拟研究与实现

高能稳定中性束注入器是实现核聚变装置托卡马克等离子体点火的关键辅助加热设备。在中性束注入器的实验操作过程中，必须通过电极加速、光束中和、离子偏转等处理，使光束尽可能无像差地提取出来。然而，光束提取系统不可避免的像差和空间电荷效应导致光束在传输过程中不断发散。因此，有必要在实验前根据设定的参数对波束发射功率的空间分布进行模拟。从而得到中性束喷射器内部元件的热负荷。这些数据可以更好地指导实际的物理实验。本文采用Qt框架和c++编程语言，设计并实现了中性波束发射功率空间分布的数值模拟软件。该软件具有高交互性和完整的功能，包括提出的光束功率密度沉积模型和光束收敛模型。利用QCustomPlot类和ECharts软件对实验仿真结果进行可视化，并基于二次Bezier曲线对二维结果进行优化。研究的亮点包括采用新的光束收敛模型，通过计算编程技术将三维坐标变换模型迁移到光束收敛模型中，使光束收敛计算更具通用性，并增加平滑函数方法对仿真结果进行优化。通过测试，验证了软件的稳定性。该软件通过模拟不同位置的束流功率沉积，为实际束流提取实验提供数据指导，为中性束流注入器的优化设计提供参考。

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

2023 5th International Conference on Communications, Information System and Computer Engineering (CISCE)

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