A survey of reported compositions along the solubility curve and compositions of coexisting phases in equilibrium for the system nitromethane + toluene + methylcyclohexane is given in Table 1.

Solubility curve

The system nitromethane + toluene + methylcyclohexane forms a miscibility gap of Type I, Treybal.³. Only one binary pair of components, nitromethane + methylcyclohexane, is partially miscible. The data for this system were compiled and critically evaluated (Sazonov et al.⁴). The tentative values of mutual solubility of the binary nitromethane + methylcyclohexane system at 293 K are: x₁″ = 0.013 and x₁′ = 0.994. The solubility of nitromethane in methylcyclohexane (0.018 mass fraction; 0,029 mole fraction) and cyclohexane in nitromethane (0.042 mass fraction; 0.027 mole fraction) reported in Kotarski,¹ differ from tentative values noticeably, Sazonov et al.⁴ Binary data reported in Lafyatis et al.² also differ from tentative values Sazonov et al.⁴
Solubility data obtained by the titration method for the ternary system nitromethane + toluene + methylcyclohexane were reported in Kotarski.¹ Experimental error of titration was reported in the paper as ±0.005 mL. Solubility data at 293 K (nitromethane-rich and hydrocarbon-rich branches together) are described by an algebraic equation in the form:

x₂ = a + b·x₃ + c·ln(x₃) + d·[ln(x₃)]² + e·(x₃)^1/2.
The proposed equation gives a smaller standard deviation than any other tested equations. The equation parameters (a, b, c, d, e) were calculated by the least squares method:a= -5.0920, b = -3.6993, c = -1.6341 and d = -0.1647, e = 8.7560; standard deviation of calculated and experimental values is 0.0053 (0.53%). The binodal curve for this system was calculated and compared to solubility data reported in Kotarski.¹ The solubilities calculated by the proposed equation are presented in Table 2 and Fig. 25 .

Liquid-liquid equilibrium (LLE) data LLE data for the ternary system nitromethane + toluene + methylcyclohexane were reported in both references. Composition of each phase, Kotarski,¹ was calculated from the index of refraction-composition curve of the saturated mixtures prepared at the time of the saturation curve measurements. Samples of each phase, Lafyatis et al.,² were analyzed by gas chromatography. Data reported at 293.2 K, 323.15 K, 348.15 K and 363.15 K, Kotarski¹ and Lafyatis et al.,² are in reasonable agreement. Experimental errors were reported in Lafyatis et al.² : the discrepancy between 2 determinations always less than 0.005 mole fraction. The critical solubility point was presented only in Kotarski¹ to be x₁ = 0.520, x₂ = 0.280 at 293.2 K.
All experimental data are considered tentative.