连续碳酸化分解过程是一个大滞后、强耦合的复杂工业过程,传统控制方法难以奏效。
The process of continual carbonation decomposition is such a long time-delay and strong-coupling complex industrial process that it is difficult to controlled by traditional method.
因此,如何消除安全隐患、提高分解过程的自动化水平是连续碳酸化分解过程亟待解决的问题。
So how to get rid of safe incipient fault and improve the automation level of decomposition process is a key problems to be resolved urgently.
在烧结法氧化铝生产过程中,连续碳酸化分解过程(简称碳分过程)是非常重要的承前启后的生产过程。
In the process of sintering alumina production, the alumina continuous carbonation decomposition process (ACCDP) is a critical procedure bridging the preceding and subsequent procedure.
模拟工业铝酸钠溶液连续碳酸化分解条件,对分解过程不同阶段产物氢氧化铝的粒度、磨损指数和结晶形貌的变化进行了研究。
The particle size distribution and attrition index of continuous carbonization products from sodium aluminate solution were studied according to the industrial production conditions.
分析影响铝酸钠溶液碳酸化分解过程的各种因素。 从工艺、溶液条件、分解技术条件三方面,讨论间断碳分和连续碳分工艺;
The influencing factors of carbonation decomposition process in the alumina production are described The effects of discontinuous and continuous decomposition technics;
分析影响铝酸钠溶液碳酸化分解过程的各种因素。 从工艺、溶液条件、分解技术条件三方面,讨论间断碳分和连续碳分工艺;
The influencing factors of carbonation decomposition process in the alumina production are described The effects of discontinuous and continuous decomposition technics;
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