Dynamic Simulation and Start-up Scenario a Pilot Distillation Column for Separating C6-C8 Hydrocarbons

King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology Pub Date : 2014-12-19 DOI:10.14416/J.IJAST.2014.11.002

Kunthaleeporn Kerddonfak, T. Srinophakun, Suthipong Laikitmongkol

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Abstract

A pilot distillation column was fabricated for multipurpose functions, such as separation testing compared with a real plant distillation column, and sample preparation for other projects. The packing efficiency of this column was developed by changing the packing material. Packing efficiency is normally an important key index, especially after a revamp. Aspen Dynamic was used to generate the best procedure for the start-up operation, covering three variables: the distillate rate, the reflux rate and the bottom rate. The start-up procedure according to these three parameters was divided into six scenarios. In addition, the effect of reflux rate and feed location was the operating conditions, including temperature profile of the column, benzene concentration in the overhead stream, and liquid levels in the reflux drum and sump. The test run data matched well, with 0.6 Murphree efficiency. The optimal procedure for the start-up operation was found to be a distillate rate – bottom rate – reflux rate scenario, which took just 9 h to reach a steady state.

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中试精馏塔分离C6-C8烃类的动态模拟及启动方案

制作了一个中试精馏塔，用于多种用途，例如与实际工厂精馏塔进行分离测试，以及为其他项目进行样品制备。通过改变填料材料，提高了塔的填料效率。填料效率通常是一个重要的关键指标，特别是在改造后。使用Aspen Dynamic生成启动操作的最佳程序，包括三个变量:蒸馏速率、回流速率和底速率。根据这三个参数将启动过程分为六个场景。此外，回流速率和进料位置的影响因素还包括操作条件，包括塔身温度分布、顶流苯浓度、回流鼓和回流池液位。试运行数据匹配良好，Murphree效率为0.6。发现最佳的启动操作程序是蒸馏率-底率-回流率方案，只需9小时即可达到稳定状态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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King Mongkut’s University of Technology North Bangkok International Journal of Applied Science and Technology

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