Quench detection & instrumentation for the Tokamak Physics Experiment magnets

15th IEEE/NPSS Symposium. Fusion Engineering Pub Date : 1993-10-11 DOI:10.1109/FUSION.1993.518447

M. Chaplin, W. Hassenzahl, H. Schultz

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引用次数: 1

Abstract

The design of the Local Instrumentation & Control (I&C) System for the Tokamak Physics Experiment (TPX) superconducting PF & TF magnets is presented. The local I&C system monitors the status of the magnet systems and initiates the proper control sequences to protect the magnets from any foreseeable fault. Local I&C also stores magnet-system data for analysis and archiving. Quench Detection for the TPX magnets must use a minimum of two independent sensing methods and is allowed a detection time of one second. Proposed detection methods include the measurement of; (1) normal-zone resistive voltage, (2) cooling-path helium flow, (3) local temperature in the winding pack, (4) local pressure in the winding pack. Fiber-optic based isolation systems are used to remove high common-mode magnet voltages and eliminate ground loops. The data acquisition and fault-detection systems are computer based. The design of the local I&C system incorporates redundant, fault-tolerant, and/or fail-safe features at all component levels. As part of a quench detection R&D plan, a Quench Detection Model Coil has been proposed to test all detection methods. Initial cost estimates and schedule for the local I&C system are presented.

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托卡马克物理实验磁体的猝灭检测与仪器

介绍了托卡马克物理实验(TPX)超导PF & TF磁体局部仪表与控制系统的设计。本地I&C系统监测磁铁系统的状态，并启动适当的控制序列，以保护磁铁免受任何可预见的故障。本地I&C还存储磁体系统数据以供分析和存档。TPX磁体的猝灭检测必须至少使用两种独立的检测方法，并且允许检测时间为一秒。提出的检测方法包括测量;(1)正常区电阻电压，(2)冷却路径氦气流量，(3)绕组包内局部温度，(4)绕组包内局部压力。基于光纤的隔离系统用于去除高共模磁铁电压和消除接地回路。数据采集和故障检测系统是基于计算机的。本地I&C系统的设计在所有组件级别都包含冗余、容错和/或故障安全功能。作为淬火检测研发计划的一部分，提出了一种淬火检测模型线圈来测试所有的检测方法。提出了本地I&C系统的初步成本估算和计划。

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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15th IEEE/NPSS Symposium. Fusion Engineering

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