Filter Validation and Regulatory AspectsFilter Validation and Regulatory Aspects

Balamurugan m

Balamurugan.m

IntroductionIntroduction

Filtration is a very simple and old technique. Where the separation is based on their physical property (particle Density, Particle Size, electric Charge etc)

Its been used in different stages of fermentation process

Exhaust Filter

Air Filter

Media Filter

TFF, Ultra filter, Dia-filter etc

Regenerated cellulose

Nylon

Polyamides

Polyether Sulfones

Cellulose nitrate

Cellulose acetate

Poly propylene

Poly tetra fluoro ether(PTFE)

Poly Vinyl Denefluoride(PVDF)

HydrophilicHydrophobic

Material Of Construction:Material Of Construction:

Porosity:Porosity:

The total empty space available within the volume of filter is called porosity.

1KG

Porosity:Porosity:

The total empty space available within the volume of filter is called porosity.

1KG water

Porosity:Porosity:

The total empty space available within the volume of filter is called porosity.

1KG1.2KG - = 0.2kg

1.4bar

1bar

Due to resistance Created by the filter

1.4bar

1bar

The difference between the two pressure is called differential pressure

DifferentialDifferential PressurePressure

1.4bar

1bar

Dirt Hold CapacityDirt Hold Capacity

The maximum Dirt it can Hold before the flow rate goes below the acceptable range is called dirt hold capacity

EFA (Effective Filtration Area):EFA (Effective Filtration Area):

The total area of the filter which is involve in the filtration is called Effective filtration area (EFA)

Filter Validation:Filter Validation:

Destructive Test

• Bacterial Challenge Test

Non-Destructive Test

• Bubble Point Test• Diffusion Test• Pressure Hold Test

Bacterial Challenge Test :Bacterial Challenge Test :

Brevundimonas diminuta, ATCC 19146 at 10^7

0.22um0.45um

Bacterial Challenge Test :Bacterial Challenge Test :

Brevundimonas diminuta, ATCC 19146 at 10^7

0.22um0.45um

Bubble point test :Bubble point test :

Bubble point is the minimum The minimum pressure required to force liquid out of a liquid-filled capillary must be sufficient to overcome surface tension and is a direct measure ofeffective tube diameter

Bubble point test :Bubble point test :

Bubble point testBubble point test

Capillary Force

Surface Tension Of water

Pressure is applied

Bubble point testBubble point test

Poiseuille ’ s law

P = Bubble Point Pressure

σ = Surface Tension of the liquid

Θ = Angle between wall and wedding liquid

D = Diameter of the Pore

K = Shape Correction Factor

Diffusion Test:Diffusion Test:

Diffusion Test is generally recommended for high volume filter. (Generally bigger than of 2ft2 or bigger volume)Diffusion of gas is based on the principle that gas will diffuse through the pores of fully wedded filter. This diffusion is propossional to the differential pressure and Surface area of the filter.The pressure maintained is generally the 80% pressure of Bubbling point of the filter.The gas flow rate is determine by measuring the flow rate of water displacement.

D =Diffusiblity of GasH = Solubility of GasΔP = Differential Pressure across The filter cartridgeF= Total Gas Liquid Contact areaL = Thickness of the Liquid film

Diffusion Test:Diffusion Test:Pressure Applied usually 80% of

Bubble Point Pressure

Diffusion of gas Occurs downwards

Diffusion Test:Diffusion Test:

The rate is measured with milliliter of water per second by using a stop clock

This rate is then compared with standard chart

Pressure Hold Test:Pressure Hold Test:

• The pressure hold test is the variation of Diffusion test.• A high accurate pressure gauge is used in the upstream of the filter to measure the pressure lose due to diffusion of through the water. • The pressure hold value is depending on the Gas diffusion and upstream volume of the filter .• It can be calculated by the formula

∆P = D (T) (Pa) Vh

D = Diffusion rate (cc/min)T = Time (minutes)Pa = Atmosphere pressure (1 Atm. or 14.7 psi)Vh = Upstream volume of apparatus (cc)DP = Pressure Drop (bar or psi)

Conclusion:Conclusion:

Filtration validation is the very important technique in Bio-Pharma industry. Currently available techniques validate the filters in indirect way. Many more advancement has to come and validation process has to be done in fast and efficient way.