Thermal and Structural Analysis of Interaction Cavity and Its Effect on the Operating Mode Excitation for a 120 GHz, 1 MW Gyrotron

Nitin Kumar; Anil Kumar; Udaybir Singh; T. P. Singh; A. K. Sinha

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Thermal and Structural Analysis of Interaction Cavity and Its Effect on the Operating Mode Excitation for a 120 GHz, 1 MW Gyrotron

机译：相互作用腔的热和结构分析及其对120 GHz，1 MW回旋加速器工作模式激励的影响

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Thermal and structural analysis for a 120 GHz, 1 MW gyrotron interaction cavity and the effect of structural deformation on the operational mode excitation is presented. Finite element analysis codes ANSYS and COSMOS have been used for the thermal and structural simulation. The values of the water flow rate and the hydraulic diameter of the outer jacket have been optimized. The effect of the maximum radial expansion of the interaction cavity on eigenfrequency and mode excitation has also been analyzed. The change in eigenfrequency for the operating mode due to thermal expansion is 0.606 GHz. This value is very near the theoretically calculated value and under the tolerance limit of the maximum frequency deviation for the gyrotron operating mode.

机译：给出了120 GHz，1 MW回旋管相互作用腔的热和结构分析，以及结构变形对工作模式激励的影响。有限元分析代码ANSYS和COSMOS已用于热和结构仿真。水流率和外套的水力直径的值已优化。还分析了相互作用腔的最大径向膨胀对本征频率和模式激励的影响。由于热膨胀，工作模式的本征频率变化为0.606 GHz。该值非常接近理论计算值，并且处于回旋加速器工作模式的最大频率偏差的容差范围内。

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来源
《International Journal of Thermophysics》 |2011年第5期|p.1038-1046|共9页
作者
Nitin Kumar; Anil Kumar; Udaybir Singh; T. P. Singh; A. K. Sinha;
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作者单位

Department of Physics, J.V College, Baraut, 250611, India;

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原文格式 PDF
正文语种 eng
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关键词
Gyrotron; Interaction cavity; Mode excitation; Thermal and structural analyses;

机译：回旋管;相互作用腔;模式激发;热和结构分析;

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1. Thermal and Structural Analysis of Interaction Cavity and Its Effect on the Operating Mode Excitation for a 120 GHz, 1 MW Gyrotron [J] . Nitin Kumar, Anil Kumar, Udaybir Singh, International Journal of Thermophysics . 2011,第5期

机译：120 GHz，1 MW回旋加速器相互作用腔的热和结构分析及其对工作模式激励的影响
2. Thermal and Structural Analysis and its Effect on Beam-Wave Interaction for 170-GHz, 1-MW Gyrotron Cavity [J] . Anil Kumar, Nitin Kumar, Udaybir Singh, Journal of Fusion Energy . 2012,第2期

机译：170 GHz，1 MW回旋管腔的热和结构分析及其对波-波相互作用的影响
3. Numerical design of 120 GHz, 1 MW gyrotron interaction cavity [J] . Kumar N., Singh U., Kumar A., Infrared physics and technology . 2011,第6期

机译：120 GHz，1 MW回旋管相互作用腔的数值设计
4. P3-10: Design of interaction cavity for 120 GHz, 1 MW gyrotron [C] . Kumar Nitin, Khatun Hasina, Singh Udaybir, 2010 IEEE International Vacuum Electronics Conference . 2010

机译：P3-10：120 GHz，1 MW回旋管的相互作用腔设计
5. DESIGN IMPROVEMENTS FOR MODE AND POLARIZATION CONVERTERS FOR 60 GHZ GYROTRONS. [D] . RHEE, UN DONG. 1986

机译：60 GHZ陀螺仪的模式和极化转换器的设计改进。
6. Fiber Bragg Grating Temperature Sensors in a 6.5-MW Generator Exciter Bridge and the Development and Simulation of Its Thermal Model [O] . Kleiton de Morais Sousa, Werner Probst, Fernando Bortolotti, 2014

机译：6.5 MW发电机励磁桥中的光纤光栅温度传感器及其热模型的开发与仿真
7. Infrared Measurements of the RF Output of 170-GHz/2-MW Coaxial Cavity Gyrotron and Its Phase Retrieval Analysis [O] . Sudheer Jawla, Student Member, Stefano Alberti, 2013

机译：170 GHz / 2 MW同轴腔回旋管射频输出的红外测量及其相位提取分析

Thermal and Structural Analysis of Interaction Cavity and Its Effect on the Operating Mode Excitation for a 120 GHz, 1 MW Gyrotron

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