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    • 6. 发明授权
    • Inter-column heat integration for multi-column distillation system
    • 多列蒸馏系统的柱间热积分
    • US5230217A
    • 1993-07-27
    • US885580
    • 1992-05-19
    • Rakesh AgrawalDonald W. Woodward
    • Rakesh AgrawalDonald W. Woodward
    • B01D3/14F25J3/04
    • F25J3/04303F25J3/04412F25J3/04709F25J2200/50F25J2200/54F25J2205/02F25J2245/02Y10S62/924
    • This invention relates to an improvement in a process for the separation of a multi-component stream comprising component A, B and C with A being the most volatile and C the least volatile. A multi-component feed is introduced to a multicolumn distillation system comprising a first or main distillation column and a side column wherein at least a light component A is separated from a heavier component C in the main distillation column, the lighter component A being removed as an overhead fraction and the heavier component C being removed as a bottoms fraction. The improvement for enhanced recovery of component B in the side column comprises withdrawing a liquid fraction from the main distillation column at a point intermediate the overhead and feed and introducing that liquid fraction to an upper portion of the side column. Lighter components are withdrawn as an overhead from the side column and returned to an optimal location in the distillation system, typically the main distillation column. A vapor fraction is also withdrawn from the main distillation column at a point intermediate the bottoms and feed and vapor fraction is introduced to a lower portion of the side column. A liquid fraction is withdrawn as bottoms and returned to the main distillation column. Thermal integration in the side column is effected by removing a portion of the liquid typically from the stripping section of the side column and vaporizing this fraction against a vapor fraction obtained from the main distillation column.
    • 本发明涉及分离包含组分A,B和C的多组分流的方法的改进,其中A是最易挥发的,C是最不易挥发的。 将多组分进料引入到包含第一或主蒸馏塔和侧塔的多列蒸馏系统中,其中至少轻组分A与主蒸馏塔中的较重组分C分离,较轻组分A被除去为 顶部馏分和较重的组分C作为塔底馏分除去。 侧柱中组分B的增强回收的改进包括在塔顶馏出物的中间点从主蒸馏塔中取出液体馏分,并将该液体馏分引入侧塔的上部。 较轻的组分作为塔顶馏出物从侧柱排出并返回到蒸馏系统(通常为主蒸馏塔)中的最佳位置。 蒸汽馏分也从底部馏分中间点的主蒸馏塔排出,进料和蒸汽馏分被引入侧塔的下部。 将液体馏分作为塔底馏出物返回主蒸馏塔。 通过从侧塔的汽提部分除去一部分液体并使该馏分相对于从主蒸馏塔获得的蒸气馏分蒸发来实现侧塔中的热积分。