ABSTRACT

Infinite dilution binary diffusion coefficients (D_12) of two dyestuffs, disperse blue 14 (DB14) and disperse orange 11 (DO11), were measured in supercritical CO2 at 310 - 330 K and up to 35 MPa by the chromatographic impulse response (CIR) method and in liquid methanol and ethanol at 308 - 328 K and atmospheric pressure by the Taylor dispersion method. The retention factors (k) were also measured by the CIR method. The diffusion coefficients were well represented by a hydrodynamic equation, as a function of temperature and solvent viscosity, over a wide range of solvent viscosity from scCO2 to liquid solvents with average absolute relative deviations (AARDs) of 1.7% and 2.6% for 63 and 93 data points of DB14 and DO11, respectively. The solubility data for the two dyestuffs reported in the literature were well correlated with solute retention factor measured in the present study and solvent density with AARD of 7.05% for DB 14 of 109 data points and that of 15.4% for DO11 of 43 data points.

Compounds

#	Formula	Name
1	C15H11NO2	9,10-anthracenedione, 1-amino-2-methyl-
2	C16H14N2O2	1,4-bis(methylamino)anthraquinone
3	CO2	carbon dioxide
4	CH4O	methanol
5	C2H6O	ethanol

Datasets

The table above is generated from the ThermoML associated json file (link above). POMD and RXND refer to PureOrMixture and Reaction Datasets. The compound numbers are included in properties, variables, and phases, if specificied; the numbers refer to the table of compounds on the left.
Type	Compound-#	Property	Variable	Constraint	Phase	Method	#Points
POMD	1 3	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Mole fraction - 1; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	chromatographic impulse response method	65
POMD	3 2	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Mole fraction - 2; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	chromatographic impulse response method	47
POMD	4 2	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases)	Mole fraction - 2; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	Taylor dispersion method	8
POMD	5 2	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases)	Mole fraction - 2; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	Taylor dispersion method	8
POMD	4 1	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases)	Mole fraction - 1; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	Taylor dispersion method	16
POMD	5 1	Binary diffusion coefficient, m2/s ; Fluid (supercritical or subcritical phases)	Temperature, K; Fluid (supercritical or subcritical phases)	Mole fraction - 1; Fluid (supercritical or subcritical phases) Pressure, kPa; Fluid (supercritical or subcritical phases)	Fluid (supercritical or subcritical phases)	Taylor dispersion method	12

Thermodynamics Research Center / ThermoML | Fluid Phase Equilibria

Measurement of binary diffusion coefficient and solubility estimation for dyes in supercritical carbon dioxide by CIR method

Funazukuri, T.[Toshitaka], Yamasaki, T.[Taichi], Taguchi, M.[Minori], Kong, C. Y.[Chang Yi]

ABSTRACT