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Issue
Korean Journal of Chemical Engineering,
Vol.14, No.5, 341-346, 1997
Measurement and Modeling Solubility of Bioactive Coumarin and its Derivatives in Supercritical Carbon Dioxide
Yoo KP, Shin HY, Noh MJ, You SS
To design a supercritical fluid extraction process for the separation of bioactive substances from natural products, a quantitative knowledge of phase equilibria between target biosolutes and solvent is necessary. However, mostly no such information is available in literature to date. Thus in the present study, illustratively the solubility of bioactive coumarin and its various derivatives (i.e., hydroxy-, methyl-, and methoxy-derivatives) in supercritical CO2 were measured at 308.15-328.15K and 10-30 MPa. Also, the pure physical properties such as normal boiling point, critical constants, acentric factor, molar volume and standard vapor pressure for coumarin and its derivatives were estimated. By these estimated information, the measured solubilities were quantitatively correlated by an approximate lattice equation of state proposed recently by the present authors.
Keywords: Measurement; Thermodynamic Modeling; Solubility; Supercritical Carbon Dioxide; Coumarin Derivatives
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[Cited By]
  1. Kim SG, Bae YC, Ryu SO, Korean Journal of Chemical Engineering, 17(6), 638, 2000
  2. Wang B, Li Q, Zhang Z, Yang J, Liu Y, Korean Journal of Chemical Engineering, 23(1), 131, 2006
  3. Liu JC, Li DQ, Zhou RQ, Hao F, Korean Journal of Chemical Engineering, 24(1), 113, 2007
  4. Kwon KT, Uddin MS, Jung GW, Sim JE, Lee SM, Woo HC, Chun BS, Korean Journal of Chemical Engineering, 28(6), 1433, 2011
  5. Jung GW, Kang HM, Chun BS, Journal of Industrial and Engineering Chemistry, 18(1), 360, 2012
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