连铸生产过程中,铸坯内部温度场无法实时测量,表面温度难于准确测量,而稳态传热模型不能模拟实际工艺参数频繁变化的浇注过程,本文建立了实时凝固传热模型,并对模型的影响因素进行了分析。考虑到铸坯表面随机剥离的氧化铁皮对其测温的干扰,研究建立了基于面阵的 CCD 测温系统,并结合数值分析方法,消除了铸坯表面氧化铁皮对测温的干扰,还原铸坯表面真实温度,使测量的铸坯表面温度波动在±10℃范围内。通过采用 CCD 面阵测温、射钉测厚以及数值分析方法,实现了基于多信息融合的铸坯温度场在线测量,为二冷配水动态优化和铸坯温度场闭环控制提供了基础。%In the continuous casting process,the internal temperature of billet is difficult to be measured real-time and the surface temperature is difficult to be measured accurately.The steady-state heat transfer models can’t be used for simulation the ac-tual casting operations which vary frequently.A real-time heat transfer model was developed,especially the influencing factors of model were analyzed.Considering the interference of scales which strip randomly on the billet surface to the temperature measure-ment,the CCD (charge coupled device)surface temperature measurement system was developed.Combined with numerical analysis method,the real temperatures of billet were restored.The impact of scales was effectively eliminated and the fluctuation of measured surface temperature within the range of ±10℃.The temperature field measurement of billet was realized based on multi-informa-tion fusion of CCD temperature measurement system,measured shell thickness and numerical analysis method.This provides the ba-sis that the surface temperatures take into account to closed-loop control and dynamic optimization water distribution.
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