Volume 21 (2024)
Volume 20 (2023)
Volume 19 (2022)
Volume 18 (2021)
Volume 17 (2020)
Volume 16 (2019)
Volume 15 (2018)
Volume 14 (2017)
Volume 13 (2016)
Volume 12 (2015)
Volume 11 (2014)
Volume 10 (2013)
Volume 9 (2012)
Volume 8 (2011)
Volume 7 (2010)
Volume 6 (2009)
Volume 5 (2008)
Volume 4 (2007)
Volume 3 (2006)
Volume 2 (2005)
Volume 1 (2004)
Thermodynamics,
Determining the Optimal Thermodynamic Conditions of Ternary Systems Containing (CO2, Solvent, 5-Fluorouracil) in the GAS Process

M. Rahmanzadeh Derisi; N. Esfandiari

Volume 19, Issue 1 , March 2022, , Pages 3-14

https://doi.org/10.22034/ijche.2022.338671.1431

Abstract
  One of the methods to reduce the particle size is the GAS method. In this method, the solute and antisolvent should be dissolved well in a solvent. But the solute is not dissolved in a solvent. The aim of studying this model is to determine the phase equilibrium and thermodynamic conditions of (CO2, ...  Read More

Effect of Solvent on the Optimal Thermodynamic Conditions of Ternary System (CO2, Alcohol, Ampicillin) in GAS Process

M. Rahmanzadeh derisi; N. Esfandiari

Volume 17, Issue 1 , March 2020, , Pages 37-46

https://doi.org/10.22034/ijche.2020.214680.1328

Abstract
  The gas antisolvent (GAS) process has been employed for pharmaceutical micronization. Ampicillin was dissolved in organic solvent and carbon dioxide as an antisolvent was injected into this solution, consequently, volume expansion and sharp reduction in liquid solvent power were shown. The particles ...  Read More

Thermodynamics,
On the Selection of Proper Thermodynamic Conditions for the Gas Antisolvent Process (GAS) at Nearcritical and Supercritical Conditions
Volume 3, Issue 4 , October 2006, , Pages 17-22

Abstract
  In this work the volume expansion for the binary systems of ethanol and toluene, as industrial organic solvents, in the presence of nearcritical and supercritical carbon dioxide, CO2, at a temperature range of 293 to 333 K has been meticulously measured. The effect of the temperature and pressure of ...  Read More