Is the performance of a virtual sensor employed for the prediction of the ledge thickness inside a metallurgical reactor affected by the thermal contact resistance?

机译：是虚拟传感器的性能，用于预测受热电接触电阻影响的冶金反应器内的晶体厚度内的凸起厚度。

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A virtual sensor is developed for predicting the time-varying thickness of the ledge on the inside surface of a wall of a high-temperature metallurgical reactor. The virtual sensor tracks the position of the solid-liquid phase front using thermal measurements taken from a heat flux sensor embedded in the reactor wall. The virtual sensor comprises a state observer coupled to a reduced model of the reactor. It also accounts for the thermal contact resistance of the wall structure. Results indicate that the virtual sensor is increasingly accurate as the magnitude of the thermal contact resistance augments. Moreover, the predictions of the virtual sensor remain accurate even when the contact resistance is poorly known.

机译：开发虚拟传感器，用于预测高温冶金反应器的壁的内表面上的凸缘的时变厚度。虚拟传感器使用从嵌入在反应器壁中的热通量传感器取出的热测量来追踪固液相位前面的位置。虚拟传感器包括耦合到反应器的减少模型的状态观察者。它还考虑了墙壁结构的热接触电阻。结果表明，虚拟传感器随着热接触电阻增强的幅度越来越准确。此外，即使接触电阻已知不知识别，虚拟传感器的预测也保持准确。

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《International Conference on Simulation and Experiments in Heat and Mass Transfer》|2014年||共10页
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作者
M. LeBreux; M. Desilets; M. Lacroix;
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中图分类 TK124-53;
关键词
Ledge; Metallurgical reactor; Virtual sensor; Inverse method; Thermal contact resistance; Unscented Kalman filter; State-space model;

机译：壁架;冶金反应堆;虚拟传感器;逆方法;热接触电阻;无创的卡尔曼滤波器;状态空间模型;

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1. Prediction of the Time-Varying Ledge Profile inside a High-Temperature Metallurgical Reactor with an Unscented Kalman Filter-Based Virtual Sensor [J] . Lebreux M., Désilets M., Lacroix M. Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2013,第7a12期

机译：基于无味卡尔曼滤波器的虚拟传感器对高温冶金反应器内时变壁架轮廓的预测
2. An unscented Kalman filter inverse heat transfer method for the prediction of the ledge thickness inside high-temperature metallurgical reactors [J] . Marc LeBreux, Martin Desilets, Marcel Lacroix International Journal of Heat and Mass Transfer . 2013,第1期

机译：一种无味卡尔曼滤波器逆传热方法，用于预测高温冶金反应堆内部的壁架厚度
3. Control of the ledge thickness in high-temperature metallurgical reactors using a virtual sensor [J] . Marc LeBreux, Martin Desilets, Marcel Lacroix Inverse Problems in Science & Engineering . 2012,第7a8期

机译：使用虚拟传感器控制高温冶金反应堆中的壁架厚度
4. Is the performance of a virtual sensor employed for the prediction of the ledge thickness inside a metallurgical reactor affected by the thermal contact resistance? [C] . M. LeBreux, M. Desilets, M. Lacroix International Conference on Simulation and Experiments in Heat and Mass Transfer . 2014

机译：是用于预测受热接触电阻影响的冶金反应器内的凸缘厚度的虚拟传感器的性能。
5. PREDICTION OF THE MACROSCOPIC CONTACT AREA IN THERMAL CONTACT RESISTANCE [D] . MCNARY, ROSS ORLO -1

机译：宏观接触电阻的热接触电阻预测
6. How the Skin Thickness and Thermal Contact Resistance Influence Thermal Tactile Perception [O] . Congyan Chen, Shichen Ding 2019

机译：皮肤厚度和热接触电阻如何影响热触觉
7. On the relevance of analytical film thickness EHD equations for isothermal point contacts: qualitative or quantitative predictions? [O] . Wheeler, Jean David, Vergne, Philippe, Fillot, Nicolas, 2016

机译：关于等温点接触的分析膜厚EHD方程的相关性：定性或定量预测？
8. Pulsed Photothermal Radiometry for Measuring Subsurface Air Gap Thickness or Contact Thermal Resistance [R] . Tam, A. C., Sontag, H., Leung, W. P. 1988

机译：脉冲光热辐射测量法测量表面气隙厚度或接触热阻

Is the performance of a virtual sensor employed for the prediction of the ledge thickness inside a metallurgical reactor affected by the thermal contact resistance?

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