A liquid mixture of hydrocarbons has 40% by weight of cyclohexane, 40% of benzene, and 20%...

Separation Process: Suppose a saturated liquid feed of a benzene (B)/toluene (T) mixture (50 mol% B)...

Separation Process: Suppose a saturated liquid feed of a benzene (B)/toluene (T) mixture (50 mol% B) to a column is to be separated into a high purity distillate that is has a mole fraction of B equal to 0.9999 with a bottoms product mole fraction of 0.10. You may take the relative volatility to be aBT = 2.49 at the temperature that the column is operated. You are also given the reflux ratio to be 10.0, assuming a total condenser....

Benzene is evaporating into a closed, well-mixed 20-L vessel. Assume the surface area of the Benzene...

Benzene is evaporating into a closed, well-mixed 20-L vessel. Assume the surface area of the Benzene is 150 cm2 . Benzene has a molecular weight of 78 g/mol, liquid density of 0.88 g/mL, vapor pressure of 0.125 atm., liquid activity coefficient of 2400 (25 °C and 1 atm), solubility of 1780 mg/L and an octanol-water coefficient of log KBow=2.0 (mass concentration basis). a) How much chemical (grams) would have to be added to reach a benzene concentration of 200 mg/L...

Rectification. McCabe-Thiele Method. A mixture of benzene-toluene is to be distilled in a fractionating tower at...

Rectification. McCabe-Thiele Method. A mixture of benzene-toluene is to be distilled in a fractionating tower at 101.3 kPa. The column is fed 120 kg mol /h of a saturated liquid at the boiling point with 60 mol % benzene and 40 mol % toluene. The content of the distillate is 92 mol % benzene, and of the bottoms 5 mol % benzene. The reflux ratio is 3:1. (a) Calculate the kg mol/h distillate: D=_______ (b) Calculate the kg mol/h bottoms:...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is in oC) Viscosity                                 Pr                    k (W/m K) 180oC2.13 x10-5kg/(m s)                  0.721               0.029 130oC  1.93x10-5kg/(m s)                  0.738               0.025   80oC  1.72x10-5kg/(m s)                  0.755               0.020 Approximate density: 2.0 kg/m3 Data for water: Molecular weight:18.0 Heat capacity for liquid water: 0.0754 kJ/mole oC   Viscosity: Viscosity                                 Pr                    k (W/m K) 180oC139 x10-6kg/(m s)                   0.94                 0.665 130oC  278x10-6kg/(m s)                   1.72                 0.682   80oC  472x10-6kg/(m s)                   3.00                 0.658 Ideal gas constant: 0.08206 L atm/(mol K) Carbon dioxide, with flow rate of 0.10 kg/s, is to be cooled from 180 oC to 80...