First Principles Modeling of RFQ Cooling System and Resonant Frequency Responses for Fermilab’s PIP-II Injector Test

J. P. Edelen; A. L. Edelen; D. Bowring; B. E. Chase; J. Steimel; S. G. Biedron; S. V. Milton

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First Principles Modeling of RFQ Cooling System and Resonant Frequency Responses for Fermilab’s PIP-II Injector Test

机译：费米实验室PIP-II喷油器测试的RFQ冷却系统和共振频率响应的首要原理建模

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摘要

In this paper we develop an a priori method for simulating dynamic resonant frequency and temperature responses in a radio frequency quadrupole (RFQ) and its associated water-based cooling system respectively. Our model provides a computationally efficient means to evaluate the transient response of the RFQ over a large range of system parameters. The model was constructed prior to the delivery of the PIP-II Injector Test RFQ and was used to aid in the design of the water-based cooling system, data acquisition system, and resonance control system. Now that the model has been validated with experimental data, it can confidently be used to aid in the design of future RFQ resonance controllers and their associated water-based cooling systems. Without any empirical fitting, it has demonstrated the ability to predict absolute temperature and frequency changes to 11% accuracy on average, and relative changes to 7% accuracy.

机译：在本文中，我们开发了一种先验方法来分别模拟射频四极杆（RFQ）及其相关的水基冷却系统中的动态谐振频率和温度响应。我们的模型提供了一种计算有效的方法，可以评估大范围系统参数上RFQ的瞬态响应。该模型是在交付PIP-II喷油嘴测试RFQ之前构建的，用于帮助设计水基冷却系统，数据采集系统和共振控制系统。现在，该模型已经通过实验数据进行了验证，可以放心地用于辅助设计未来的RFQ共振控制器及其相关的水基冷却系统。在没有任何经验拟合的情况下，它已经证明了预测绝对温度和频率变化的准确性平均为11％，相对变化的准确性为7％。

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《IEEE Transactions on Nuclear Science》 |2017年第2期|800-808|共9页
作者
J. P. Edelen; A. L. Edelen; D. Bowring; B. E. Chase; J. Steimel; S. G. Biedron; S. V. Milton;
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FNAL, Batavia, IL, USA;

CSO, Batavia, IL, USA;

FNAL, Batavia, IL, USA;

FNAL, Batavia, IL, USA;

FNAL, Batavia, IL, USA;

Colorado State University, Fort Collins, CO, USA;

Colorado State University, Fort Collins, CO, USA;

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正文语种 eng
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关键词
Cooling; Blades; Mathematical model; Water heating; Resonant frequency; Radio frequency; Cavity resonators;

机译：冷却;叶片;数学模型;水加热;谐振频率;射频;腔谐振器;

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1. Longitudinal beam dynamics studies at the PIP-II injector test facility [J] . International Journal of Modern Physics, A. Particles and Fields, Gravitation, Cosmology . 2019,第36期

机译：PIP-II注射器测试设施的纵梁动力学研究
2. Beam Tests of Beampipe Coatings for Electron Cloud Mitigation in Fermilab Main Injector [J] . Michael Backfish, Jeffrey Eldred, Cheng-Yang Tan, IEEE Transactions on Nuclear Science . 2016,第2期

机译：减少费米实验室主喷油器束流涂层的束流测试
3. Frequency tuning with RFQ temperature in China ADS Injector Ⅱ [J] . Jing Wang, Jian-Long Huang, Xiao-Qi Zhang, 中国物理C（英文版） . 2016,第003期

机译：中国ADS进样器Ⅱ随RFQ温度进行频率调谐
4. FIRST-PRINCIPLES SIMULATION AND COMPARISON WITH BEAM TESTS FOR TRANSVERSE INSTABILITIES AND DAMPER PERFORMANCE IN THE FERMILAB MAIN INJECTOR [C] . Dennis Nicklaus, G. William Foster, Vladimir Kashikhin IEEE Particle Accelerator Conference . 2005

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5. Design principles of a Flywheel Regenerative Braking System (F-RBS) for Formula SAE type racecar and system testing on a virtual test rig modeled on MSC ADAMS [D] . Pochiraju, Anirudh 2012

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6. Array of Resonant Electromechanical Nanosystems: A Technological Breakthrough for Uncooled Infrared Imaging [O] . Laurent Duraffourg, Ludovic Laurent, Jean-Sébastien Moulet, 2018

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First Principles Modeling of RFQ Cooling System and Resonant Frequency Responses for Fermilab’s PIP-II Injector Test

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