等离子体形成和聚变应用中变压器线圈磁场的分析

2017 International Conference on Technological Advancements in Power and Energy ( TAP Energy) Pub Date : 2017-12-01 DOI:10.1109/TAPENERGY.2017.8397337

K. Kumari, K. Thampatty

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引用次数: 1

摘要

在任何聚变反应堆装置中，磁零对等离子体的形成都具有重要意义。在理想情况下，欧姆变压器线圈产生的磁场的径向和垂直分量在真空容器内的某个特定位置应近似为零。等离子体区域内磁场的非零径向和垂直分量作为误差场，导致气体击穿困难。通过将变压器线圈与电磁线圈串联，可以补偿误差场效应。为了设计等离子体电流的起始，必须精确估计这些线圈的位置。本文提出了一种优化线圈位置的方法，以获得真空容器内所描述位置的零位置。优化线圈定位后，利用ANSYS、EFFI和泊松代码对磁场和等离子体形成进行了分析。该分析是在等离子体研究实验室进行的。ANSYS仿真得到的结果通过解析计算得到了验证。

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Analysis of magnetic fields due to transformer coils in plasma formation and fusion applications

The magnetic null is of greatest significance for plasma formation in any Fusion Reactor device. In Ideal case, the radial and vertical component of the magnetic field produced by the Ohmic transformer coil should be approximately zero at some specific location inside the vacuum vessel. Non-zero radial & vertical component of the magnetic field within the plasma region acts as error field and causes difficulties in the gas breakdown. The error field effect can be compensated by placing the transformer coils in series with the solenoid coil. These coil positions must be estimated precisely for designed plasma current inception. This paper proposes a method to optimize the coil positions in order to obtain the null position at the described location inside the vacuum vessel. After optimal positioning of the coils, the magnetic field and plasma formation are analyzed using ANSYS, EFFI, and Poisson codes. The analysis is conducted at Plasma Research Lab. The results obtained with ANSYS simulation is validated with Analytical calculations.

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来源期刊

2017 International Conference on Technological Advancements in Power and Energy ( TAP Energy)

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