利用Aspen HYSYS模拟压缩生沼气中的冷凝

Proceedings of The 59th Conference on imulation and Modelling (SIMS 59), 26-28 September 2018, Oslo Metropolitan University, Norway Pub Date : 2018-11-19 DOI:10.3384/ECP1815331

L. Øi, J. Hovland

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引用次数: 5

摘要

生沼气通常含有60%的甲烷，40%的二氧化碳，少量的其他成分，并与水饱和。未加工的沼气能否被压缩到高压而不凝结是个问题。本文的目的是利用不同的平衡模型计算不同温度、压力和气体组成条件下的冷凝极限。传统上，甲烷、二氧化碳和水的气体混合物是在过程模拟程序中计算的，使用的是PengRobinson (PR)和Soave-Redlich-Kwong (SRK)等标准模型。用Twu α函数代替α-函数后的PR和SRK也进行了评价。对于只含有甲烷和二氧化碳(干沼气)的混合物，所有的模型都给出了相似的结果。在正常环境温度(0℃以上)下，甲烷含量超过40%的干燥混合物不会发生冷凝。对于饱和水的沼气，当二元系数包括在70 bar左右时，不同的模型给出了相似的结果，但在此压力以上，模型之间存在显着偏差。采用标准函数和双α-函数的PR和SRK对露点的预测结果比较合理，但在70 bar以上，不确定性增大。

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Simulation of Condensation in Compressed Raw Biogas Using Aspen HYSYS

Raw biogas typically contains 60 % methane, 40 % CO2, small amounts of other components and is saturated with water. It is a question whether raw biogas can be compressed to high pressures without condensation. The aim of this work is to calculate the condensation limit under different conditions with varied temperature, pressure and gas composition using different equilibrium models. Traditionally, gas mixtures of methane, CO2 and water are calculated in a process simulation program with standard models like PengRobinson (PR) and Soave-Redlich-Kwong (SRK). PR and SRK with the α-function replaced with a Twu αfunction were also evaluated. For mixtures with only methane and CO2 (dry biogas) all the models gave similar results. Under normal ambient temperatures (above 0 °C), a dry mixture with more than 40 % methane will not give any condensation. For biogas saturated with water, the different models gave similar results up to about 70 bar when binary coefficients were included, but above this pressure there were significant deviations between the models. The PR and SRK with standard or Twu α-function gave reasonable results for the dew-point predictions, but above about 70 bar the uncertainty increases.

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Proceedings of The 59th Conference on imulation and Modelling (SIMS 59), 26-28 September 2018, Oslo Metropolitan University, Norway

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