Thermodynamic Modeling of Carbon Dioxide Absorption in Methyl Diethanolamine Aqueous Solutions
The natural gas as the most important alternative oil resources for providing energy is taken into consideration in recent years. Since the operational and environmental problems are created by some compounds in natural gas, so it must be refined in order to use it. CO2 is one of these compounds. On the other hand, today the world is faced with the problem of minimizing greenhouse emissions. Among these gases, CO2 is considered to be the major contributor due to its abundance. The absorption of CO2 into alkanolamine chemical solvents is one of the most common methods for capturing CO2. In this report, the SAFT-HR equation of state is used to determine the solubility of CO2 in aqueous methyldiethanolamine solutions. By using the available parameters in the articles and adjusted parameters in this work, the prediction of equilibrium solubility of CO2 for the temperature range of 298-413.15 K and the pressure range of 0.11-5036.7 kPa is done. The Average Absolute Deviation Percent (AAD%) in temperatures of 298-313-323-328-333-343-348-353-358-373-393-413 is equal to 47.45%, 39.9%, 36.5%, 8.8%, 17.6%, 6.6%, 29.2%, 10.5%, 10.7%, 27.2%, 6.4%, 4.5%, respectively. The average absolute deviation for all of the data points is found to be 27.9%.
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