Steady-state rate-based modelling for CO2/amine absorption—desorption systems

Gas Separation & Purification Pub Date : 1994-01-01 DOI:10.1016/0950-4214(94)85002-X

I. Alatiqi, M.F. Sabri, W. Bouhamra, E. Alper

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引用次数: 25

Abstract

A rigorous rate-based steady-state model of an absorber/desorber unit for the removal of CO₂ by amine solutions was developed. The model, which essentially contains no empirically assigned parameters, is based on a ‘mixing cell’ approach and considers both interphase heat and mass transfer along with simultaneous chemical reaction rates. This deterministic model, which simulates tray and packed columns at steady state, has been validated using the data of two commercial monoethanolamine (MEA) plants. For tray columns, each tray was considered to be a mixing cell, while for packed columns, the required dispersion was provided by choosing a finite number of mixing cells. For a specified CO₂ slippage rate, the effects of certain operating parameters, such as type and total concentration of amine employed, flow rate and composition of entering gas, on solution circulation rate and reboiler duty can be conveniently predicted.

The computer program, written in basic language, is designed in a user-friendly form and is a menu-driven interactive simulator. The mathematical model consists of non-linear algebraic equations and can be operated on a PC. A typical running time on an IBM PS/2 with 25 MHz was 4.39 s for the absorber and 1.1 s for the desorber.

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二氧化碳/胺吸收-解吸系统的稳态速率模型

建立了一个严格的基于速率的吸收/解吸器单元的稳态模型，用于胺溶液去除CO2。该模型基本上不包含经验分配的参数，它基于“混合细胞”方法，并考虑了相间传热和传质以及同时发生的化学反应速率。该确定性模型模拟了稳定状态下的托盘和填充塔，并使用两个商业单乙醇胺(MEA)工厂的数据进行了验证。对于托盘塔，每个托盘被认为是一个混合池，而对于填料塔，所需的分散是通过选择有限数量的混合池提供的。对于一定的CO2滑脱速率，可以方便地预测某些操作参数(如所使用的胺的种类和总浓度、进入气体的流量和组成)对溶液循环速率和再沸器负荷的影响。计算机程序以basic语言编写，设计为用户友好的形式，是一个菜单驱动的交互式模拟器。该数学模型由非线性代数方程组成，可在PC上进行运算。在25 MHz的IBM PS/2上，吸收器的典型运行时间为4.39秒，解吸器的典型运行时间为1.1秒。

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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Gas Separation & Purification

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