介绍了改造后的解吸塔在高负荷、高浓度条件下如何摸索工艺参数,提高解吸效率的有关问题。
This paper introduces how to probe into technological parameters of the revamped desorption column under high concentration and high production load, so as to improve the desorption efficiency.
通过解吸塔和蒸氨塔的改造实例,应用模拟计算结果,讨论了它们各自的不同流程设计及特点。
The characteristics of various process designs and simulated calculation are discussed in this paper based on revamping of a desorption tower and an ammonia distillation tower.
从能耗和吸收效果两个方面,对解吸塔各种进料方式进行了讨论,在双股进料基础上提出中间换热工艺。
Various feeding modes of desorbers have been discussed in terms of energy consumption and absorption effect. The intermediate heat exchange process has been provided based on double feeding process.
对新的催化裂化吸收-解吸单塔流程工艺条件的模拟研究结果表明,进料取热应和双塔流程相同,而加热板宜选在解吸段的中部。
The results showed that the heat taken from the feed section should be the same as in the double tower case, and the added reboiler should be located in the middle of the desorption section.
用有机玻璃塔研究了非均匀穿流塔板的结构与性能,分析了氧解吸的传质效率。
The structure and performance of perforated plates of non-uniform perforation are studied in a plastic column and the mass transfer efficiency of oxygen desorption is analysed.
用有机玻璃塔研究了非均匀穿流塔板的结构与性能,分析了氧解吸的传质效率。
The structure and performance of perforated plates of non-uniform perforation are studied in a plastic column and the mass transfer efficiency of oxygen desorption is analysed.
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