1. The column used for differential distillation is_______________
a) Still
b) Differential column
c) Batch column
d) None of the mentioned
Explanation: Still is the distillation column used for differential distillation.
2. Simple distillation is a___________ process.
a) Batch
b) Continuous
c) Adiabatic
d) None of the mentioned
Explanation: Here, the liquid mixture is filled in the still for a certain time to attain the vapour liquid equilibrium.
3. The initial portion of the distillate will be a low volatile component.
a) true
b) false
Explanation: Since the low volatile component has a high boiling point it will be the final portion.
4. After the separation by differential distillation, the high volatile and low volatile components are stored in ____________
a) Batch
b) Cuts
c) Distill
d) None of the mentioned
Explanation: Cuts are the place where the different volatile components are stored.
5. For a ternary mixture, the number of cuts required is_________
a) 1
b) 2
c) 3
d) 4
Explanation: The first two high volatile components are stored in two cuts and the low volatile remains in the still itself.
6. The differential distillation in order to maintain the equilibrium the process should be slow.
a) true
b) false
Explanation: For the differential distillation to get the effective distillation the process must be slow to attain the vapour- liquid equilibrium.
7. Pre-cooling is required before passing the vapour to the condenser in a still.
a) true
b) false
Explanation: If pre-cooling occurs, the vapour gets condense in the still itself so there will be alter in equilibrium
8. The equation applicable for batch distillation is _________
a) Frenske’s equation
b) Rayleigh equation
c) Wilke-chan equation
d) None of the mentioned
Explanation: Rayleigh proposed the numerical analysis of the batch distillation
9. Estimate the feed rate, if the composition of the more volatile component in the feed is 50% and the residue is 10% and the equilibrium relation is given by y*= 1.975x. Also, the rate of residue is 60 mol/hr.
a) 213 mol/hr
b) 313 mol/hr
c) 413 mol/hr
d) 513 mol/hr
Explanation: Using Rayleigh equation, we can estimate
ln (F/W)= 1.657
F= 313 mol/hr.
10. Find the rate of distillate, if the composition of the more volatile component in the feed is 50% and the residue is 10% and the equilibrium relation is given by y*= 1.975x. Also the rate of residue is 60 mol/hr.
a) 153 mol/hr
b) 253 mol/hr
c) 353 mol/hr
d) 453 mol/hr
Explanation: Using the Rayleigh equation, we can estimate
ln (F/W)= 1.657
F= 313 mol/hr then
D= 253 mol/hr.