A mixture has 10% n-butane, 90% hexane. The temperature is 60 ?C Calculate the bubble point...

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. a. If the temperature is 40...

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. a. If the temperature is 40 ?C, calculate the bubble point pressure in kPa and the unknown mole fractions. Specify whether the unknown mole fractions are vapor or liquid. b. If the temperature is 50 ?C, what is the dew point pressure in kPa and what are the unknown mole fractions? Specify whether the unknown mole fractions are vapor or liquid.

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. If the temperature is 50 ?C,...

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. If the temperature is 50 ?C, what is the dew point pressure in kPa and what are the unknown mole fractions? Specify whether the unknown mole fractions are vapor or liquid.

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. If the pressure is 202 kPa,...

Consider a mixture of 30% n-butane, 35% n-hexane, 35% n-heptane. If the pressure is 202 kPa, calculate the dew point temperature in ?C and the unknown mole fractions. Specify whether the unknown mole fractions are vapor or liquid.

For a mixture of n-butane (1) + n-pentane (2) at 25 degrees C, what would be...

For a mixture of n-butane (1) + n-pentane (2) at 25 degrees C, what would be the predicted bubble-point pressure using Raoult's Law if your mixture was 20% n-butane by mole? Would you expect Raoult's Law to be a good model for this system? Why or why not?

For a mixture of n-butane (1) + n-pentane(2) at 298.15 K, what would be the predicted...

For a mixture of n-butane (1) + n-pentane(2) at 298.15 K, what would be the predicted bubble-point pressure using Raoult’s Law if your mixture was 20% n-butane by mole? Would you expect Raoult’s law to be a good model for this system? Why or why not

A mixture of n-heptane and n-hexane containing 25 mol% n-hexane is vaporized at a pressure of...

A mixture of n-heptane and n-hexane containing 25 mol% n-hexane is vaporized at a pressure of 100kPa. Determine the following a)The bubble point temperature b)The composition of the vapor The vapor pressures are given by the Antoine equation: lnP*= A-(B/T-C) Where P is in kPa and T is in K. The Antoine constants are given as follows: n-heptane: A=13.8587,B=2911.32,C=56.51 n-hexane: A=13.8216,B=2697.55,C=48.78

A gas mixture containing 80 mole% nitrogen and the balance n-hexane flows through a pipe at...

A gas mixture containing 80 mole% nitrogen and the balance n-hexane flows through a pipe at a rate of 90 m3/h. The gauge pressure is 1 atm and the temperature is 95 oC. a) Is the gas saturated or superheated? Find its degrees of superheat assuming this operation runs at constant pressure. b) To what temperature would the gas have to be cooled at constant pressure in order to condense 80% of the hexane?

a mixture of 65 mol % n hexane and 35 mole % n octane is fed...

a mixture of 65 mol % n hexane and 35 mole % n octane is fed to a flash drum operating at 1500 mm Hg. Feed rate is 100 gmol/s. Mixture is heated to 110 degrees celcius, which the mixture vaporizes. Vapor and liquid products are removed constantly, A) Calculatae the vapor and liquid product compositions (Mol % n hexane and n octane) B) Calculate the vapor and liquid flow rates (gmol/s) y hex = 0.7 x hex = 0.6...

A mixture of 35 mole% n-hexane (C6H14) and rest n-heptane (C7H16) is fed to a flash...

A mixture of 35 mole% n-hexane (C6H14) and rest n-heptane (C7H16) is fed to a flash drum operating at 1500 mmHg pressure. The feed rate is 100 mol/s. The mixture is heated to 100C, and the vapor and liquid are removed continuously. Assuming ideal conditions, calculate vapor and liquid flow rates and compositions.

A mixture of 35 mole% n-hexane (C6H14) and rest n-heptane (C7H16) is fed to a flash...

A mixture of 35 mole% n-hexane (C6H14) and rest n-heptane (C7H16) is fed to a flash drum operating at 1500 mmHg pressure. The feed rate is 100 mol/s. The mixture is heated to 100C, and the vapor and liquid are removed continuously. Assuming ideal conditions, calculate vapor and liquid flow rates and compositions.