Abstract
The sequestration process of greenhouse contaminants such as CO2 via hollow fiber membrane contactor (HFMC) is regarded as a promising technology to manage the deleterious impressions of CO2 on environment such as global warming and air pollution. This investigational paper renders a wide-ranging 2D simulation in order to assess the removal performance of CO2 from CO2/CH4 gaseous stream (containing 80 % CH4 and 20 % CO2) in the HFMC. As the novelty, the evaluation of CO2 acid gas removal from gaseous mixture applying four novel absorbing agents (potassium threonate (PT), piperazine (PZ), pure water (H2O) and methyldiethanolamine (MDEA)) is implemented in the HFMC with the aim of introducing a more efficient liquid absorbent for CO2 sequestration. Model validation is done based on the comparison of mathematical model outcomes and experimental data in a wide range of H2O velocity and confirms a desirable agreement with an average relative deviation (ARD) of approximately 3 % for CO2 flux. It is perceived from the results that PZ is introduced as the most efficient liquid absorbent for CO2 sequestration and MDEA, PT and H2O are in the next category (100 % removal using PZ > 96 % removal using MDEA > 89 % removal using PT > 57 % removal using H2O). The results corroborate that increase in membrane tortuosity and gas velocity negatively affects the sequestration process while increment of module length and porosity improve the separation of CO2.
Highlights
Nowadays, increase in the emission of greenhouse contaminants has eventuated in serious climate change and caused worldwide concern in environmental, scientific and political fields
The sequestration process of greenhouse contaminants such as CO2 via hollow fiber membrane contactor (HFMC) is regarded as a promising technology to manage the deleterious impressions of CO2 on environment such as global warming and air pollution
It is perceived from the results that PZ is introduced as the most efficient liquid absorbent for CO2 sequestration and MDEA, potassium threonate (PT) and H2O are in the category (100 % removal using PZ > 96 % removal using MDEA > 89 % removal using PT > 57 % removal using H2O)
Summary
Increase in the emission of greenhouse contaminants has eventuated in serious climate change and caused worldwide concern in environmental, scientific and political fields. Major impurities of industrial gaseous flows such as CO2 and H2S are required to be removed efficiently with the aim of mitigating the deleterious influences of them on environment and industry such acid rain, global warming and the corrosion of pipelines [1,2,3]. Different techniques such as cryogenic distillation, absorption and currently membrane separation process have been emerged in order to eliminate carbon dioxide from gaseous streams [4,5,6]. Based on the physicochemical properties of absorbent solvents as like as thermal stability, reaction rate with CO2 and the ease of regeneration, various alkanolamine solutions such
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