A high performance water-cooled thermal shield device

15th IEEE/NPSS Symposium. Fusion Engineering Pub Date : 1993-10-11 DOI:10.1109/FUSION.1993.518459
A. Pizzuto, C. Sangiovanni
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引用次数: 2

Abstract

The shielding of the heat flux coming from plasma is one of the most limiting factors in plasma-facing component (PFC) design. In fact, the performance of a cooled divertor plate system is mainly limited by the heat transfer capability (maximum value of the critical heat flux CHF) and by the capability to sustain thermal stresses, even if the maximum allowable heat flux is determined by the thermal conductivity of the protective material (maximum temperature value on the plasma facing surface). A new concept for cooled thermal shield design was devised and tested. Analyses and tests demonstrate that the new concept introduces very high improvement in PFC design, in terms of both heat removal capability (very high CHF) and related stress performance. Up to 80 MW/m/sup 2/ under steady state were successfully applied.
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一种高性能水冷式热屏蔽装置
对等离子体热流的屏蔽是等离子体面元件设计中最主要的限制因素之一。事实上,冷却的导流板系统的性能主要受限于传热能力(临界热流密度CHF的最大值)和承受热应力的能力,即使最大允许热流密度是由保护材料的导热性(等离子体表面的最高温量值)决定的。提出了一种新型的冷式隔热罩设计理念并进行了试验。分析和测试表明,在散热能力(非常高的CHF)和相关应力性能方面,新概念为PFC设计带来了很大的改进。在稳定状态下,最高可达80mw /m/sup / /。
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15th IEEE/NPSS Symposium. Fusion Engineering
15th IEEE/NPSS Symposium. Fusion Engineering
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