Feron, PaulNorman, SarahMaeder, MarcelYu, HaiPuxty, GraemeWei, Chiao-ChienXu, Dong-YaoYang, Nan2023-11-012023-11-012014-07-112018-07-23<p>Yang, N., Xu, D., Wei, C., Puxty, G., Yu, H., Maeder, M., Norman, S., & Feron, P. (2014).<strong> </strong>Protonation Constants and Thermodynamic Properties of Amino Acid Salts for CO2 Capture at High Temperatures. <em>Industrial & Engineering Chemistry Research, 53</em>(32),12848-12855. doi:10.1021/ie502256m<strong></strong></p>0888-5885https://doi.org/10.1021/ie502256mhttps://research.avondale.edu.au/handle/123456789/12530382<p>Amino acid salts have greater potential for CO₂ capture at high temperatures than typical amine-based absorbents because of their low volatility, high absorption rate, and high oxidative stability. The protonation constant (p<em>K</em>_a) of an amino acid salt is crucial for CO₂ capture, as it decreases with increasing absorption temperature. However, published p<em>K</em>_a values of amino acid salts have usually been determined at ambient temperatures. In this study, the p<em>K</em>_a values of 11 amino acid salts were determined in the temperature range of 298–353 K using a potentiometric titration method. The standard-state molar enthalpies (Δ<em>H</em>_m⁰) and entropies (Δ<em>S</em>_m⁰) of the protonation reactions were also determined by the van’t Hoff equation. It was found that sarcosine can maintain a higher p<em>K</em>_a than the other amino acids studied at high temperatures. We also found that the CO₂ solubilities and overall mass-transfer coefficients of 5 <em>m</em>′ sarcosinate (moles of sarcosine per kilogram of solution) at 333–353 K are higher than those of 30% MEA at 313–353 K. These results show that some possible benefits can be produced from the use of sarcosine as a fast solvent for CO₂ absorption at high temperatures. However, the pronotation reaction of sarcosine is the least exothermic among those of all amino acids studied. This could lead to a high regeneration energy consumption in the sarcosinate-based CO₂ capture process</p>en-us<p>Used by permission: the author(s)</p> <p>The document available for download is the accepted manuscript version of this article. The final published version may be accessed from the publisher <a href="http://dx.doi.org/10.1021/ie502256m">here</a>.</p>CO2 captureamino acid saltsprotonation constants (pKa)standard molar enthalpy of protonationstandard molar entropy of protonationhigh temperature absorptionsarcosineJournal Article