该高压加氢裂化装置的界区从装置过滤器进料罐开始,直到从分馏与脱石脑油段来的产品出料罐为止。
The isbl of this hp hydrocracker unit will start at the unit filter feed vessel and conclude at product rundowns from the fractionation and the naphtha minus section.
在此基础上,提出了两段提升管催化裂化新概念,并分析了其技术优势。
Based on the analysis, the new concept of two-stage riser fluid catalytic cracking (TSRFCC) was proposed, and the advantage of the TSRFCC technology was analyzed.
提升管的进料段是裂化反应最复杂的区域。
The most complex part of RFCC is in the feed injection zone.
对采用两段法加氢工艺加工某催化裂化柴油得到的芳烃质量分数低于25%的产品柴油窄馏分的性质进行了分析。
The narrow-cut fractions of FCC LCO hydrogenated by the two-stage process, whose aromatics content is less than 25 %, was studied.
建立了前置烧焦罐式高效再生器催化裂化装置的提升管反应器和汽提段的动态数学模型。
A dynamic model of mechanism has been developed for the reactor and stripper of a fluid catalytic cracking unit (FCCU) with a high efficiency regenerator.
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.
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.
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