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  4. Solubility Measurement and Correlation of Alprazolam in Carbon Dioxide with/without Ethanol at Temperatures from 308 to 338 K and Pressures from 120 to 300 bar
 
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Solubility Measurement and Correlation of Alprazolam in Carbon Dioxide with/without Ethanol at Temperatures from 308 to 338 K and Pressures from 120 to 300 bar

Publikationstyp
Journal Article
Date Issued
2024-04-11
Sprache
English
Author(s)
Sajadian Seyed Ali  
Bagheri, Hamidreza  
Gurikov, Pavel  
Entwicklung und Modellierung Neuartiger Nanoporöser Materialien V-EXK2  
Rojas, Adrián  
Esfandiari, Nadia 
Jouyban, Abolghasem 
TORE-URI
https://hdl.handle.net/11420/47175
Journal
Journal of Chemical and Engineering Data  
Volume
69
Issue
4
Start Page
1718
End Page
1730
Citation
Journal of Chemical and Engineering Data 69 (4): 1718 -1730 (2024)
Publisher DOI
10.1021/acs.jced.3c00587
Scopus ID
2-s2.0-85189024649
ISSN
00219568
This research investigated the solubility of alprazolam in supercritical carbon dioxide (scCO2) with the addition of ethanol as a cosolvent. The solubility was examined at various pressures (ranging from 120 to 300 bar) and temperatures (ranging from 308 to 338 K). The solubility of alprazolam in scCO2 ranged from 0.027 × 10-4 to 0.632 × 10-4. When ethanol was used as a cosolvent, the solubility increased to a range of 0.157 × 10-4 to 1.660 × 10-4 (with 1 mol % ethanol) and 0.449 × 10-4 to 3.167 × 10-4 (with 3 mol % ethanol). Under the specified operating parameters, the highest solubility of alprazolam was achieved in the ternary system (with 3 mol % ethanol) at 120 bar and 338 K. This solubility was 16.63 times higher than when using pure scCO2 under the same circumstances. Several semiempirical correlations were used to compute the solubility of alprazolam in supercritical carbon dioxide. These models yielded similar average absolute relative deviations ranging from 7.0 to 8.40%. The findings demonstrated the superiority of the Kumar-Johnston model in binary systems (with an average absolute relative deviation of 7.0%) and the Garlapati-Madras model in ternary systems (with an average absolute relative deviation of 6.19%) compared to alternative models.
DDC Class
600: Technology
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