(Vapour+liquid) equilibria in (N-methylformamide+methanol+water) at the temperature 313.15 K

Total vapour pressure measurements made by a modified static method for (N-methylformamide + ethanol) and for (N-methylformamide + ethanol + water) at the temperature 313.15 K are presented. The results have been fitted with various correlation equations. The G E m values for (N-methylformamide + A)

Excess volumes V E measured at the temperature 313.15 K in a dilution dilatometer are reported for the binary mixtures (N-methylformamide+water) and (N-methylformamide+methanol) and for the ternary mixture (N-methylformamide+methanol+water). The results have been analysed using various correlation e

Excess molar volumes V E m measured at the temperature T=313.15 K in a dilution dilatometer are reported for the binary mixture (N-methylformamide+ethanol) and for the ternary mixture (N-methylformamide+ethanol+water). The results have been analysed using various correlation equations. The results f

Excess molar volumes V E m , measured at the temperature 313.15 K in a dilution dilatometer are reported for {xCH3OH + (1x)H2O}, {xHCON(CH3)2 + (1x)CH3OH}, and {x1HCON(CH3)2 + x2CH3OH + (1 -x1 -x2)H2O}. The results have been analysed using various correlation equations and the possibility of predict

Total vapour pressure measurements made by a modified static method for the ternary mixture (N -methylacetamide + methanol + water), and for the binary constituent mixtures at the temperature 313.15 K are presented. Different expressions for the excess Gibbs free energy are tested, and prediction of