It is about the Versatility of Packed Column over Plate Column. It has all types of Plate or Tray column and Plane column. Condition favoring for the columns and also advantages and disadvantages.
2. Plate Column
A Plate Column (or Tray Column) is a chemical equipment used to carry out unit
operations where it is necessary to transfer mass between a liquid phase and a gas
phase.
The peculiarity of this gas-liquid contactor is that the gas comes in contact with liquid
through different stages; each stage is delimited by two plates (except the stage at the
top of the column and the stage at the bottom of the column).
Plate towers consist of a vertical column with liquid flowing in the top and out the
bottom. The vapor phase enters in the bottom of the column and exits out of the top.
Inside of the column are trays or plates. These trays force the liquid to flow back and
forth horizontally while the vapor bubbles up through holes in the trays.
The purpose of these trays is to increase the amount of contact area between the liquid
and vapor phases. Some common applications of plate columns are distillation, gas-
liquid absorption and liquid-liquid extraction.
In general, plate columns are suitable for both continuous and batch operations.
3. Sieve Trays
Sieve trays are simply metal plates with holes in them. Vapor passes
straight upward through the liquid on the plate. The arrangement, number
and size of the holes are design parameters.
Advantages
1. Simple construction,
2. Low entrainment,
3. Low maintenance cost
4. Low fouling tendency
Disadvantages
1. Less-flexible to varying loads than other two types
4. Bubble Cap Trays
A bubble cap tray has riser or chimney fitted over each hole, and a cap
that covers the riser. The cap is mounted so that there is a space
between riser and cap to allow the passage of vapor. Vapor rises
through the chimney and is directed downward by the cap, finally
discharging through slots in the cap, and finally bubbling through the
liquid on the tray.
Advantages
1. Moderate capacity
2. Most flexible (high & low vap. & liquid rates)
3. Can provide excellent turndown.
Disadvantages
1. High entrainment,
2. High fouling tendency
3. High cost,
4. High pressure drop
5. Valve Trays
In valve trays, perforations are covered by lift able caps. Vapor flows lifts
the caps, thus self creating a flow area for the passage of vapor. The
lifting cap directs the vapour to flow horizontally into the liquid, thus
providing better mixing than is possible in sieve trays.
Advantages:
1. Excellent liquid/vapour contacting.
2. Higher capacity.
3. Higher flexibility than sieve trays.
4. Can handle higher loadings.
5. Low-pressure drop than bubble cap.
6. Conditions favoring plate columns:
Plate columns can handle wide range of gas and liquid flow
rates.
Plate efficiency can be predicted more accurately
Plate column operation is considerably smooth.
Cooling arrangement can be provided in plate column.
Plate column provide stage wise contact.
When the liquid cause fouling or deposition of solids, even
though the tray is blocked up, it is easier to clean it and
manholes can be provided over the plate.
7. Packed Column
Packed columns are more suitable for low capacity operations.
Packed columns are particularly useful in the field of vacuum distillation.
Here column pressure drop is of paramount importance to minimize the
pressure and temperature at the bottom of the column.
For separating heat sensitive materials packed columns are useful
because the liquid hold up is low.
When corrosion is a problem packing may be the only answer.
Pressure drop per unit length is less in packed column.
Packed column provides continuous contact between the vapor and liquid
phases.
Packed columns are suitable for handling foaming system.
Modern high capacity pickings are available in practically any material.
Total weight of packed column is less due to use of low weight and high
capacity packing.
9. Design of Packed Column
The design procedure of a packed column consists of the following
steps:
1. Select the type and size of packing.
2. Determine the column height required for the specified separation.
3. Determine the column diameter (capacity), to handle the liquid and
vapor flow rates.
4. Select and design the column internal features: packing support,
liquid distributor and redistributors.
Specify
separation
requirements
Select type and
size of packing
Determine
column
height(z)
Determine
column
diameter
10. Conditions favoring plate columns:
Packed towers offer a lower pressure drop.
Packed towers are better for corrosive liquids
Packed towers are better at handling foaming system
small-diameter columns (less than 0.6m)
more choices in materials of construction for packings
especially in corrosive service (e.g. plastic, ceramic, metal
alloys)
less liquid entrainment · low liquid hold-up, especially suitable
for thermally sensitive material
foaming liquids can be handled more readily (less agitation of
liquid by the vapour)