Abstract
Carbon dioxide mixtures from separation plants contain usually some impurities. Major impurities include nitrogen, argon, hydrogen and oxygen, depending on the capture technology used for the removal of CO2. The mixture composition determines the critical point data, and the values of critical pressure and critical temperature define, in turn, the limits of dense phase/supercritical pipeline operating conditions. The simulation of dynamic behaviour of three dense phase/supercritical CO2-rich mixtures was carried out in this study. The pipeline CO2 flow model was formulated with the assumption of one-dimensional, nonisothermal flow condition. An illustration of the performance of the model by an example of a fictive but realistic onshore CO2 pipeline is given. The results show that the type and quantity of impurities have a significant influence on the hydraulics of the pipeline transportation system under transient conditions. They also indicate that the transportation costs vary and are dependent on the capture technology used.
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