Impact of experimental pressure and temperature on semiclathrate hydrate formation for pre-combustion capture of CO2 using tetra-n-butyl ammonium nitrate

TBANO3 (tetra-n-butyl ammonium nitrate) is a promising liquid phase promoter for capturing CO2 via HBGS (hydrate based gas separation) technology. In this study, the impact of experimental pressure and temperature on formation of mixed CO2–H2-TBANO3 semiclathrate hydrate for the optimum 1.0 mol% TBA...

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Bibliographic Details
Published in:Energy (Oxford) 2014-12, Vol.78, p.458-464
Main Authors: Babu, Ponnivalavan, Datta, Stuti, Kumar, Rajnish, Linga, Praveen
Format: Article
Language:English
Subjects:
Applied sciences
Carbon dioxide capture
Clathrate process
Energy
Exact sciences and technology
Gas hydrates
Semi-clathrates
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Summary:TBANO3 (tetra-n-butyl ammonium nitrate) is a promising liquid phase promoter for capturing CO2 via HBGS (hydrate based gas separation) technology. In this study, the impact of experimental pressure and temperature on formation of mixed CO2–H2-TBANO3 semiclathrate hydrate for the optimum 1.0 mol% TBANO3 reported by Babu et al. [1] was investigated. Experimental pressures of 3.0, 4.5 and 6.0 MPa and temperatures of 274.2, 276.2 and 278.2 K were employed. Irrespective of the experimental pressure, shorter induction time was observed for experiments conducted at 274.2 K when compared to the experiments at other temperatures. At a given pressure, the total gas uptake increased with increase in experimental temperature. Similarly at a given temperature, the total gas uptake increases with an increase in pressure. Higher rate of hydrate formation was observed at experimental pressure of 6.0 MPa than at 3.0 and 4.5 MPa irrespective of the experimental temperature. The CO2 composition in hydrate was between 87.5 and 93.2 mol%. Finally, the gas consumption for 1.0 mol% TBANO3 as promoter was much higher than other promoters of quaternary salts like tetra-n-butyl ammonium bromide and tetra-n-butyl ammonium fluoride at comparable concentration and driving force. •Effect of pressure and temperature on the optimum concentration of 1.0 mol% TBANO3 was investigated.•Lower separation efficiency at lower driving force.•Highest gas uptake with 1.0 mol% TBANO3 than TBAB and TBAF at same concentrations.
ISSN:0360-5442
DOI:10.1016/j.energy.2014.10.033