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解耦科里奥利力和旋转浮力对旋转通道全场传热性能的影响

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Uncoupling Coriolis Force and Rotating Buoyancy Effects on Full-Field Heat Transfer Properties of a Rotating Channel

Please note that all translations are automatically generated. Click here for the English version.

解耦科里奥利力和旋转浮力对旋转通道全场传热性能的影响

DOI:

10.3791/57630-v

•

10:03 min

•

October 05, 2018

•

Shyy Woei Chang, Wei-Ling Cai, Hong-Da Shen, Kuo-Ching Yu

¹Department of System and Naval Mechatronic Engineering,National Cheng Kung University

Kapitel

00:04Titel
00:44The Rotating Rig Setup and the Heat Transfer Test Module
02:01Collecting Data to Determine the Thermal Emissivity Coefficient for the Infrared Thermography System
03:06Dynamic Balancing of the Rotating Rig
04:02Evaluation of Heat Loss Coefficients
05:19Baseline and Rotating Heat Transfer Tests
07:22Results: Examples of Decoupling Coriolis and Rotating Buoyancy Effects in Rotating Channels
08:56Conclusion

Summary

Automatische Übersetzung

在这里, 我们提出了一个实验方法, 以解耦的科里奥利力和旋转浮力效应的全场传热分布的旋转通道。

Tags

Coriolis Force Rotating Buoyancy Heat Transfer Rotating Channel Turbine Rotor Blades Full-field Heat Transfer Data Infrared Thermography Rotating Rig Test Module Teflon Frame Heating Foil Thermocouple Air Plenum Chamber

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