1. Filtration Department of Chemical Engineering,By
Sidra Jabeen
Department of Chemical Engineering,
University of Engineering & Technology Lahore

2. Lecture includes: What is filtration? Understanding of the basic terms
How filtration is done?
Types of filtration
Rate of filtration
Filter Media
Filter Aid
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3. Filtration
Removal of solid particles from a fluid by passing it through a septum on which the solids are deposited
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4. 1. Solid Particles Concentration Valuability Solubility Size
Traces to High %
Dissolved
Desired
Waste
Undissolved
Ultra filtration
Micro filtration
Nano Filtration
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5. 2. Fluids
A continuous substance which can Flow
Liquid
Gas
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6. 3. Septum or Filtering Media
Membrane
Filter Paper
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7. 4. Solid Deposition
In the form of cake on the septum Or Trapped inside the pores of the septum
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8. Example The solid remaining in the filter paper is called the residue.
The residue can be dried by spreading it out on the filter paper and allowing the liquid to evaporate.
The liquid which has passed through the filter paper is called the filtrate.
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9. How filtration is done?
Fluid flows through the filter medium by virtue of pressure difference across the medium.
Through Feed Side
Pump
Blower
Liquid height of column etc
Through Product Side
By generating Vacuum
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10. Types of filtration Two basic types of filtration are
Cake filtration  Solid particles form a layer of solids on filtering media (called as cake).
Deep or Depth bed filtration  Solid particles are caught inside the pores of filtering media.
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11. 1. Cake Filtration
Solid particles are retained on septum as a layer of solids called as “cake”
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12. 2. Deep Bed Filtration Further of two types Clarifying filtration
Cross flow filtration
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13. a. Clarifying Filtration
Solid particles are trapped inside the septum
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14. b. Cross flow Filtration
Some of the liquid passes through the septum leaving behind conc. solution
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16. Factors affecting Rate of Filtration
Drop in pressure from the feed to the far side of septum
Area of the filtering surface
Viscosity of the solution
Resistance of the filter cake
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17. Filter Media Common names Desired Properties Filter Paper Membrane
Screen
Porous Solids
Desired Properties
Good Filtration
Should not Plug
Chemically Resistant
Physically Strong
Cheap
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18. Material of construction of filter media
Woven Materials (Cotton, Wool, Silk etc)
Perforated Metal Sheeting
Granular Materials (Sand, Asbestos etc)
Porous Solid
Felted-Fiber materials (Porous Paper)
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19. Filter Media Structure
Cloth
Metal
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20. Filter Aids
Filter aids are granular solids which are used in combination with filtration to enhance rate of filtration. For example, Diatomaceous silica, perlite, purified wood cellulose etc.
Filter aids are used in two different ways:
Added before filtration
As a pre-coat
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21. Filter Aids Added before filtration
This increases the porosity of the cake and reduces resistance of the cake during filtration.
As a pre-coat
They can be used as a precoat before the slurry is filtered. This will prevent solids from plugging the filter medium and also give a clearer filtrate.
Use of filter aids is usually limited to cases where the cake is discarded.
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22. Types of Filters
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23. Classification of Filters
Filters are classified on following three different basis:
Mechanism
The driving force
Operation

24. On the basis of mechanism
Cake filters
Clarifying filters
Cross flow filters
On the basis of driving force
Pressure Filters
Vacuum filters
Centrifugal filters
On the basis of operation
Continuous filters
Batch or discontinuous filters

25. Classification of filters
Pressure filters  Pressure applied at feed side
Vacuum filters  Vacuum applied at product side
Centrifugal separators  Spinning the slurry to force separation
Continuous filters  Flow of fluid and discharge of solids (cake) is continuous or uninterrupted.
Batch filters Flow of fluid is continuous but it has to be interrupted to permit discharging of the accumulated solids.
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26. Cake filters
They can be pressure filters (filter press, shell & leaf filter)
Or they can operate under vacuum (rotary drum filter)
Or cake filtration can be carried in centrifugal filters (suspended batch centrifuges)
Either type can be batch or continuous.
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27. 1.Filter Press Pressure filter operate in batch mode
Sets of plates (circular or square)
Plate faces covered by septum
Slurry enters at one end
Solids (cake) collect in chamber and liquid pass out
‘Jammed’ filter
Wash liquid, air or steam used to remove residual liquid
Press opened and cake removed
Washing is time consuming and labor intensive
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28. Filter Press Pink : Plates Yellow : filter Cloth Blue : Filtrate
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29. Filter Press
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30. 2. Shell and leaf filter Pressure filter operating in batch mode
Stack of leaves inside the closed tank
Feed enters in the side of the tank
Pass through leaves covered with filter
Liquid leaves into discharge manifold
Cake is removed by gravity force and vibration
Cake is effectively removed and economize labor
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31. 3. Shell and leaf filter
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32. Shell and leaf filter cake disposal
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33. 3. Rotary Drum Filter Vacuum filter with continuous operation
Drum turns at 0.1 – 2 rpm in slurry trough
Filter covers the face of the drum
Rotary drum filter has four zones:
Filtering zone
Washing and drying zone
Cake removal zone
Dead zone
Vacuum is applied in first two zones
Permeate and washing liquid discharge into separate compartments
Doctor blade is used in third zone
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34. Rotary Drum Filter
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35. Rotary Drum Filter
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36. Rotary Drum Filter
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37. Rotary Drum Filter
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38. 4. Suspended Batch Centrifuge
Centrifugal filter operating in batch mode
Perforated baskets 750 – 1200 mm in dia. and 18 – 30 inch deep
Basket rotates at 750 – 1200 rpm
Feed taken from inlet is centrifuged
Clear liquid pass out leaving behind solid cake in basket
Wash liquid sprayed to remove soluble solids and cake dried
For cake removal, basket is turned at 30 – 50 rpm and cake is cut off with unloader knife
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39. Suspended Batch Centrifuge
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40. Clarifying Filtration
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41. Clarifying Filtration
Removal of the Small amounts of solids or liquids droplets from the fluids.
Principle of Clarification
Particles are trapped inside the filter media or on its surfaces
Caught by the surface forces
Reduce the active dia. of the channel
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42. Liquid Clarification: Cartridge Filter
Series of thin disks with close clearances in a vertical stack
Disks carried on a vertical hollow shaft
Liquid admitted under pressure
Trapping of the solids between disks
Liquid flows out through the casing
Comb cleaner pass between the disks and drop solids to the bottom of casing
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43. Cartridge Filter
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45. Gas Clarification For atmospheric dust – Pad filters
For process dusts – Bag Filters
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46. Pad Filter Before After Air passed through pads of filter media
Pad may be dry or coated with viscous oil
For light duty – pads are disposable
For heavy duty – reused by rinsing and recoating
Before
After
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47. Bag Filter or Bag House
Contains one or more large bags of fabric material inside metal casing
Dust laden gas enters the filter at the bottom
Solid particles trap inside the bag and clean gas leave at the top
Solids are discharged by shaking mechanism
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49. Cross flow Filtration
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50. Definition
Filtration in which flow of the suspension is parallel to the filtering media used to get concentrated slurry
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51. Cross flow filtration Operation
The feed is passed across the filter membrane at positive pressure relative to the permeate side. A proportion of the material which is smaller than the membrane pore size passes through the membrane as permeate or filtrate; everything else is retained on the feed side of the membrane as retentate.
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53. Conventional Filtration
Difference b/w cross flow & Conventional filtration
Cross Flow Filtration
Flow of fluid is parallel to the surface
Majority of the feed travels across the surface of the filter
Process feed remains in the form of a mobile slurry, suitable for further processing
It is possible to fractionate particles by size
Conventional Filtration
Flow of fluid is perpendicular to the surface
Solids in the feed trap inside the filter or retain on the filter
Process feed is transformed into solid cake & filtrate
It is simply the separation of solids from liquids, no fractionation
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55. Performance of cross flow filtration
Fouling of the membrane
Permeate flux
Percent rejection
Back flushing
Factors for optimizing permeate flux
Trans-membrane pressure
Shear rate
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56. Types of cross flow filtration
Reverse Osmosis
Microfiltration
Ultrafiltration
Nanofiltration
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57. Reverse Osmosis
The pressure driven transport of solvent from a solution through a membrane is known as reverse osmosis
Applications
Separating low-molecular-weight substances in solution
Concentrating
Cleaning wastewater
Demineralization
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58. Points of discussion Osmosis Osmotic pressure Reveres Osmosis
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59. Micro filtration
Used for the particles in the size range of μm.
Applications
Fermentation
Biomass clarification and recovery
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60. Ultra filtration
Used for the particles in the size range from 1μm down to μm.
Applications
used in the fractionation of milk as well as protein fractionation
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61. Nano filtration Used for the particles up to 1nm
Nanofiltration is the process with the characteristics b/w those of Ultrafiltration and reverse osmosis.
Applications
Pharmaceutical processing
Water treatment
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