模型的炉膛辐射热交换部分采用了全交换面积的概念,有效减少了重复计算。
The repetition calculation was avoided by using the total exchange area to describe the radiant heat transfer in the furnace.
通过对电解槽炉膛、炉侧局部破损部位进行修复,二次启动后大大延长了电解槽寿命,有效地利用了资源。
The cell's life can be prolonged remarkably after startup secondly through repair the furnace chamber and local damages in side of the cell. It is beneficial to resources utilization effectively.
此模型来源于实际观测数据,可靠性高,能够更有效的判别锅炉炉膛结渣特性。
Owing to coming from the observation data directly, it has a high reliability and can improve the judgement.
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