The feed stream to a distillation column is 40 mol-% n-pentane and 60 mol% n-hexane. Feed...

Consider the distillation of a saturated liquid feed of 0.16 mol fraction methanol and 0.84 mol...

Consider the distillation of a saturated liquid feed of 0.16 mol fraction methanol and 0.84 mol fraction water. The column has a side stream of composition 0.5 mol fraction methanol and a flow rate of 7.7% of the feed rate. The top product is to contain 0.77 mol fraction methanol and the bottom product is to contain 0.02 mol fraction methanol. The column operates at 1 atm, and the usual simplifying assumptions can be made. The external reflux ratio is...

A feed that is 40 mol% methane, 15 mol% n-butane, 10 mol% n-pentane, and 35 mol%...

A feed that is 40 mol% methane, 15 mol% n-butane, 10 mol% n-pentane, and 35 mol% n-hexane is flash distilled. The feed is fed to the flash drum at 150 kmol/h. The drum pressure is 250 kPa and the drum temperature is 10°C. Use the DePriester charts. Find V/F, xi, yi, V, L.

Acetaldehyde is synthesized by the catalytic dehydrogenization of ethanol: C2H5OH ? CH3CHO + H2 Fresh feed...

Acetaldehyde is synthesized by the catalytic dehydrogenization of ethanol: C2H5OH ? CH3CHO + H2 Fresh feed (pure ethanol) is blended with a recycle stream (95 mole% ethanol and 5% acetaldehyde), and the combined stream is heated and vaporized, entering the reactor at 280?C. Gases leaving the reactor are cooled to -40?C to condense the acetaldehyde and un-reacted ethanol. Off-gas from the condenser is sent to a scrubber, where the uncondensed organic compounds are removed and hydrogen is recovered as a...

A saturated liquid feed at 1000.0 kmol/h that is 8.0 mol% ethane, 33.0 mol% propane, 49.0...

A saturated liquid feed at 1000.0 kmol/h that is 8.0 mol% ethane, 33.0 mol% propane, 49.0 mol% n-butane, and 10.0 mol% n-pentane is fed to a distillation column operating at 5.0 atm. The column has a total condenser and a partial reboiler. Recovery of propane in the distillate is 99.7%, and n-butane recovery in the bottoms is 99.8%. a) Find N min from the Fenske equation (hand calculation). b) Find (L/D) min from the Underwood equation (hand calculation). c) Use...

Consider a distillation column that receives a feed of 500 kg/min of a mixture of benzene...

Consider a distillation column that receives a feed of 500 kg/min of a mixture of benzene and cyclohexane that is 55 mole % benzene. We wish to design the column so that the distillate has a composition that is 95 mole % benzene and contains 90 % of the benzene fed to the column. Calculate the distillate and bottoms flow rates (in kg/min) and the composition of the bottoms product in mole %.

A distillation column is used to separate an ethanol-water feed into a high purity alcohol and...

A distillation column is used to separate an ethanol-water feed into a high purity alcohol and waste water. The feed has a composition of 20 mole % C2H5OH, the distillate contains 85 mole % alcohol and the bottoms have a 3 mole % alcohol concentration. (a) For 2.5 t/h of feed draw a carefully labelled process flow diagram. (b) Calculate the molar flow rates of the distillate and bottom streams. (c) What percentage of the alcohol is recovered in the...

We wish to separate a mixture of 60 mol% ethanol and 40 mol% n-propanol in a...

We wish to separate a mixture of 60 mol% ethanol and 40 mol% n-propanol in a distillation column with a partial reboiler and a total condenser. The feed rate is 1000 kmol/h, and feed is a saturated vapour. We desire a distillate product of 99 mol% ethanol and a bottoms product that is 0.8 mol% ethanol. Reflux is saturated liquid and CMO can be used. Equilibrium data can be approximated with an average relative volatility of 2.1 (ethanol is more...

A distillation column should separate benzene and toluene in a 30 t/h feed flow containing 40...

A distillation column should separate benzene and toluene in a 30 t/h feed flow containing 40 % benzene and 60 % toluene. The overhead product should be 97 % benzene and bottom product 98 % toluene. The molar reflux ratio RD = 3.5 and the saturated liquid feed has a boiling point of 95 °C. Calculate flow rates of distillate and bottom product . determine the number of ideal trays needed for the separation . Where is the feed tray...

A distillation column has a feed of 100 kmol/h. The feed is 15 mol% heavy non-key,...

A distillation column has a feed of 100 kmol/h. The feed is 15 mol% heavy non-key, 35 mol% heavy key, and 50 mol% light key. The reflux ratio is 1.4 times the minimum. It is desired to have 99% recovery of the light key in the distillate. The mole fraction of light key in the distillate should be 0.85. Use the FUG approach to determine the number of ideal stages required. Equilibrium data: aLNK =3.5 aLK =1.5 aHK =0.85

11. Your company has a distillation column ready to install. The column has one feed, a...

11. Your company has a distillation column ready to install. The column has one feed, a partial condenser and a partial reboiler. Vapor product is drawn directly from the condenser. Find the number of degrees of freedom with this column. HINT there is no stream divider after the condenser. 12. Using a total condenser with a reflux ratio of 2, the heat load on the condenser is (a) Twice the heat of vaporization of the distillate. (b) Equal to the...