Comparison of measured and literature data for carbon dioxide (1) + 1-butanol (2), + 2-butanol (2), + isobutanol (2), and + tert-butanol (2) binary systems at 365.15 K. CO 2 + 1-butanol: , [47]; CO 2 + 2-butanol: [47]; CO 2 + isobutanol: • this work; CO 2 + tert-butanol: , this work.

Comparison of measured and literature data for carbon dioxide (1) + 1-butanol (2), + 2-butanol (2), + isobutanol (2), and + tert-butanol (2) binary systems at 365.15 K. CO 2 + 1-butanol: , [47]; CO 2 + 2-butanol: [47]; CO 2 + isobutanol: • this work; CO 2 + tert-butanol: , this work.

Source publication
Article
Full-text available
In recent years, the dramatic increase of greenhouse gases concentration in atmosphere, especially of carbon dioxide, determined many researchers to investigate new mitigation options. Thermodynamic studies play an important role in the development of new technologies for reducing the carbon levels. In this context, our group investigated the phase...

Contexts in source publication

Context 1
... Figure 2, we compare experimental data of carbon dioxide + 1-butanol binary system [47], as well as for all C 4 H 10 O isomers, i.e., carbon dioxide + 2-butanol [47], carbon dioxide + isobutanol, and carbon dioxide + tert-butanol systems at the same temperature, 363.15 K. Energies 2022, 15, x FOR PEER REVIEW 8 of 19 In Figure 2, we compare experimental data of carbon dioxide + 1-butanol binary system [47], as well as for all C4H10O isomers, i.e., carbon dioxide + 2-butanol [47], carbon dioxide + isobutanol, and carbon dioxide + tert-butanol systems at the same temperature, 363.15 K. (1) It can be observed that our experimental data for carbon dioxide + isobutanol and + tert-butanol are in good agreement with those reported by Galicia-Luna et al. [47] for carbon dioxide + 1-butanol and + 2-butanol, respectively. At higher pressures, the solubility of carbon dioxide increases in the order 1-butanol < isobutanol < 2-butanol < tert-butanol, as observed by other researchers [23]. ...
Context 2
... Figure 2, we compare experimental data of carbon dioxide + 1-butanol binary system [47], as well as for all C 4 H 10 O isomers, i.e., carbon dioxide + 2-butanol [47], carbon dioxide + isobutanol, and carbon dioxide + tert-butanol systems at the same temperature, 363.15 K. Energies 2022, 15, x FOR PEER REVIEW 8 of 19 In Figure 2, we compare experimental data of carbon dioxide + 1-butanol binary system [47], as well as for all C4H10O isomers, i.e., carbon dioxide + 2-butanol [47], carbon dioxide + isobutanol, and carbon dioxide + tert-butanol systems at the same temperature, 363.15 K. (1) It can be observed that our experimental data for carbon dioxide + isobutanol and + tert-butanol are in good agreement with those reported by Galicia-Luna et al. [47] for carbon dioxide + 1-butanol and + 2-butanol, respectively. At higher pressures, the solubility of carbon dioxide increases in the order 1-butanol < isobutanol < 2-butanol < tert-butanol, as observed by other researchers [23]. ...