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ENHANCEMENT OF HEAT REMOVAL USING CONCAVE LIQUID METAL TARGETS FOR HIGH-POWER ACCELERATORS

机译：利用凹入液态金属靶来加强高功率促进剂的热量去除

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The need is increasing for development of high-power targets and beam dump areas for the production of intense beams of secondary particles. The severe constraints arising from a megawatt beam deposited on targets and absorbers call for nontrivial procedures to dilute the beam. This study describes the development of targets and absorbers and the advantages of using flowing liquid metal in concave channels first proposed by IFMIF to raise the liquid metal boiling point by increasing the pressure in liquid supported by a centrifugal force. Such flow with a back-wall is subject to Taylor-Couette instability. The instability can play a positive role of increasing the heat transfer from the hottest region in the target/absorber to the back-wall cooled by water. Results of theoretical analysis and numerical modeling of both targets and dump areas for the IFMIF, ILC, and RIA facilities are presented.

机译：需要增加高功率目标和光束倾卸区域的高功率目标和射线倾卸区域的产生。由兆瓦梁引起的严重约束，沉积在目标和吸收器上的呼叫呼叫非动力程序以稀释梁。该研究描述了目标和吸收器的发展以及使用流动液态金属在第一通道中的优点，通过IFMIF提出通过增加由离心力支撑的液体中的压力来提高液态金属沸点。具有后壁的这种流动受到泰勒汤不稳定性的影响。不稳定性可以发挥增加从目标/吸收剂中最热区域的热传递到被水冷却的后壁的热传递的积极作用。提出了IFMIF，ILC和RIA设施的目标和倾倒区域的理论分析结果和数值模型。

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《IEEE Particle Accelerator Conference》|2007年||共3页
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I. Konkashbaev; P. Fischer; A. Hassanein; N. V. Mokhov;
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1. Intense heat simulation studies on window of high density liquid metal spallation target module for accelerator driven systems [J] . V. Mantha, R. Chaudhary, S. Pal, International Journal of Heat and Mass Transfer . 2006,第19a20期

机译：用于加速器驱动系统的高密度液态金属散裂目标模块窗口上的强热模拟研究
2. High heat-flux accelerator targets: Cooling with liquid metal jet impingement [J] . I. Silverman, A.L. Yarin, S.N. Reznik, International Journal of Heat and Mass Transfer . 2006,第17a18期

机译：高热通量加速器目标：通过液态金属射流冲击进行冷却
3. High heat flux accelerator targets cooling with liquid-metal jet impingement [J] . I. Silverman, A. Arenshtam, D. Kijel, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2005,第1a4期

机译：高热通量加速器的目标是通过液态金属射流撞击进行冷却
4. ENHANCEMENT OF HEAT REMOVAL USING CONCAVE LIQUID METAL TARGETS FOR HIGH-POWER ACCELERATORS [C] . I. Konkashbaev, P. Fischer, A. Hassanein, IEEE Particle Accelerator Conference . 2007

机译：利用凹入液态金属靶来加强高功率促进剂的热量去除
5. Single- and two-phase heat transfer enhancement in a curved, rectangular channel subjected to concave heating. [D] . Sturgis, Joseph Christopher. 1998

机译：在经受凹面加热的弯曲矩形通道中的单相和两相传热增强。
6. Enhanced Water Purification Performance of Ionic Liquid Impregnated Metal–Organic Framework: Dye Removal by BMIMPF6/MIL-53(Al) Composite [O] . Safiyye Kavak, Özce Durak, Harun Kulak, 2020

机译：IONIC液体浸渍金属 - 有机框架的增强水净化性能：BMIM染料除去PF6 / MIL-53（AL）复合材料
7. ENHANCEMENT OF HEAT REMOVAL USING CONCAVE LIQUID METAL TARGETS FOR HIGH-POWER ACCELERATORS [O] . I. Konkashbaev, P. Fischer, A. Hassanein, 2013

机译：利用大功率加速器的液态金属目标增强热量去除
8. Enhancement of Heat Removal using Concave Liquid Metal Targets for High Power Accelerators. [R] . Fisher, P. E., Konkashbaev, I., Mokhov, V. N., 2007

机译：利用凹面液态金属靶增强高功率加速器的散热性能。

ENHANCEMENT OF HEAT REMOVAL USING CONCAVE LIQUID METAL TARGETS FOR HIGH-POWER ACCELERATORS

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