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Title: A Seminar on VALIDATION OF COMPRESSED AIR


1
ASeminar onVALIDATION OF COMPRESSED AIR

2
CONTENT
  • Introduction
  • How Compressed Air System(CAS) works?
  • Test functions and Acceptance criteria
  • Validation protocol
  • Installation Qualification (IQ)
  • Operational Qualification (OQ)
  • Performance Qualification (PQ)
  • Applications
  • How to gain efficiencies and power savings?
  • References

3
Introduction
  • What is compressed air?
  • Commonly called Industry's Fourth Utility
  • Air that is condensed and contained at a pressure
    that is greater than the atmosphere
  • The process takes a given mass of air, which
    occupies a given volume of space, and reduces it
    into a smaller space. In that space, greater air
    mass produces greater pressure. The pressure
    comes from this air trying to return to its
    original volume
  • It is used in many different manufacturing
    operations. A typical compressed air system
    operating at 100 psig (7 bar) will compress the
    air down to 1/8 of its original volume. (figure
    CA1-1)

4
  • Compressed air is an important component of
    pharmaceutical manufacturing facilities
  • It provides many of the air types necessary for
    a manufacturing facility to function, including
    breathing air , motive air for machines , process
    air , analytical air and Product Direct Impact ,
    or "cGMP" air
  • The application for which the compressed air will
    be used will dictate the level of air quality
    that is appropriate for use
  • There are two main categories of applications
    Direct Impact Systems and Indirect Impact System

5
  • Direct Impact Systems
  • The systems will have direct contact with the
    product
  • The system will provide an excipient, or produce
    an ingredient or solvent
  • The system will be used in cleaning or
    sterilizing
  • The system will preserve product status
  • The system will produce data which is used to
    accept or reject the product
  • The system will be a process control system that
    can affect product quality and there will be no
    system for independent verification of control
    system performance

6
  • Indirect Impact or No Impact Systems
  • The system will not contact the product or
    materials that ultimately become part of the
    product
  • The systems are generally site or building
    systems and are not tailored specifically to
    aseptic manufacturing facilities
  • The systems will deal with a side activity of the
    manufacturing process (such as waste disposal)

7
How the Compressed Air System(CAS) works?
  • Each component in a typical system helps to
    deliver clean, dry, compressed air thats free of
    pressure fluctuations at its point of use
  • If any component is working inefficiently, the
    systems performance suffers and operating
    costs rise
  • Like any high-pressure system, they are prone to
    leaks or other failures that can result in lower
    performance

8
Typical Compressed Air System Layout
9
Components of the CAS system
  • Inlet filter
  • Removes particles from the air entering the
    compressor
  • Compressor
  • Compresses air to a small volume,
    increasing the pressure (Reciprocating
    compressors are frequently used)
  • Motor Drives the compressor
  • Compressor Controller
  • Directs the compressors output and it may
    be microprocessor, electromechanical or
    pneumatically based

10
  • Aftercooler
  • Compression leaves the air hot and wet. The
    aftercooler lowers the temperature of the air
    leaving the compressor and removes water that
    condenses as the air cools
  • Separator Removes liquids from the compressed
    air
  • Receiver Stores a large reserve of compressed
    air to maintain a smooth flow to the plant
  • Air line Filter
  • Removes solids and liquids from the
    compressed air stream. Can be placed throughout
    the system

11
  • Dryer
  • - Helps to eliminate any remaining moisture in
  • the compressed air by using either a
    refrigerated
  • condenser or a desiccant
  • - Refrigerated condensers cool the air to
    condense water vapours into a liquid that is then
    drained from the system. Desiccants are powders
    or gels that remove water by absorbing it
  • Condensate Trap
  • - Collects and discharges liquid that
    condenses out of the air stream
  • - Integral part of aftercoolers, dryers and
    separators

12
  • Distribution Piping
  • Links the components. It distributes the air
    from a main header to branch lines and sub
    headers to drop points connected to individual
    tools
  • Pressure regulator
  • Controls air pressure and flow at individual
    points of use

13
Test Functions
  • Perform Installation Qualification
  • Perform general operational controls verification
    testing
  • Operate system throughout the range of operating
    design specifications or range of intended use
  • Verify that the compressed air system is capable
    of supplying
  • pressurized compressed air to all use
    points. Perform an
  • operational test of the distribution
    system and pressure
  • regulators by monitoring the pressure
    output at the
  • respective use points

14
  • Perform a capacity test to verify that the system
    is capable of
  • supplying the required gas, pressure, and
    flow rate at each
  • use point
  • Verify that in-line filters are integrity tested.
    Confirm that all documentation clearly indicates
    acceptable test results
  • Perform dew point measurement
  • Perform hydrocarbon content measurement
  • Perform viable particulate count,
    microbiological at critical use
  • points after sterile filters (refer to
    Federal Standard 209E)

15
  • Identification of oxygen content
  • Record the range of all process or equipment
    parameters (set
  • points, flow rates, timing sequences,
    concentrations, etc.)
  • verified during Operational and
    Performance Qualifications
  • testing

16
Acceptance Criteria
  • The system is installed in accordance with design
    specifications, manufacturer recommendations and
    cGMPs. Instruments are calibrated, identified,
    and entered into the calibration program
  • General controls, alarms, and interlocks operate
    in accordance with design specifications
  • The system operates in accordance with design
    specifications
  • throughout the operating range or range of
    intended use
  • The compressed air distribution system must
    consistently deliver pressurized compressed air
    to the use points at the design pressure as
    specified

17
  • All in-line filters are integrity tested and
    qualify per manufacturers operating
    specifications
  • Dew point must be lt0 or lower
  • Hydrocarbon content must be 1 ppm
  • Viable particulate must be 1.0 cfu/10 ft3
  • Nonviable particulate counts must be 100/ft3
    of 0.5µ or larger at all critical use points

18
Method for Dew point and Oil content
  • As per Air Quality Standards ISO 8573 and Filter
    Standard ISO 12500 for compressed air there are
    nine part to it as follows
  • Part 1 - Contaminants and Purity classesPart 2
    - Test methods for aerosol oil contentPart 3 -
    Test methods for the measurement of humidityPart
    4 - Test methods for solid particle contentPart
    5 - Determination of oil vapor and organic
    solvent
  • contentPart 6 - Test methods
    for gaseous contaminant content Part 7 - Test
    method for viable microbiological contaminant
  • content Part 8 - Test methods
    for solid particle content by mass
  • concentration Part 9 - Test
    methods for liquid water content

19
Validation Protocol
  • It includes
  • Installation Qualification
  • Operational Qualification
  • Performance Qualification
  • Final Report

20
Installation Qualification (IQ)
  • This section establishes documented verification
    that key aspects of equipment adhere to approve
    design intentions and recommendation of
    manufacturer have been suitably consider
  • In addition to the common requirements outlined
    in the "General" section, the following are
    required for Distribution systems
  • The piping should be supported, labeled, and
    sloped to drain completely

21
Contd
  • Materials of construction will vary with gas
    type, and must agree with specification
  • Verify that in-line filters can be integrity
    tested
  • Verify that the systems have been thoroughly
    cleaned and dried before operation

22
Operational Qualification
  • This section Establishes that there is a
    documented verification that the installed system
    functions as a specified and that there is a
    sufficient documentary evidence to demonstrate
    this
  • The OQ protocol will outline tests to study
    capacity and pressure during estimated minimum
    and maximum use

23
Contd
  • All use points supply the specified pressure
    prior to any pressure reducing valves or
    equipment
  • All use point supply the volume of gas as
    specified
  • Each peak load use point as specified by use or
    equipment

24
Performance Qualification
  • This section gives documented verification that
    the equipment performance in its normal operating
    environment is consistently exactly as specified
    in User Requirement Specification (URS)
  • Testing will include viable and total particulate
    counts, dew point, hydrocarbon analysis, and
    purity analysis
  • Each point of use will be tested at least three
    times over 10 working days. Every use point of
    the system must be tested several times over the
    course of the study.

25
Contd
  • Hydrocarbon Monitoring should show less than 0.2
    mg/m3 (25 mg/125 liters) detected. (the lower
    limit of a Dragger tube)
  • The highest total particulate count from the five
    one-minute runs must meet class 100 or EC Class A
    criteria
  • Viable Monitoring (not needed of integrity tested
    final filter is in place) less than 0.03 CFU/ft3
    or less than 1 CFU/m3
  • Since the gas is field sampled under non-sterile
    conditions, a few sporadic, individual, tests may
    fail. Persistent test failures with any
    individual test, or group of tests, will indicate
    a system failure

26
Contd
  • The dew point of compressed air less than or
    equal to -10C, or less than the lowest
    temperature to which the system is exposed
  • Identity and Purity (Nitrogen) Not less than
    99.0 nitrogen by volume. Not more than 0.001
    Carbon Monoxide. No appreciable odor
  • Identity and Purity (Oxygen) Not less than 99.0
    Oxygen by volume. No appreciable odor

27
Final Report
  • Depending on IQ , OQ and PQ data final report is
    made and
  • that will indicate whether your system is
    validated or not

28
Applications
  • Level of application
  • Function
  • Shop air
  • (Filtered centrifugal separator)
  • Air Tools, Sand Blasting, Pneumatic Control
    Systems
  • (Dryer and Air line filter)
  • Removes solids 3 microns larger, 99 of water
    droplets, 40 of oil aerosol
  • Removes moisture producing a 35 to 50F (-1.67
    to 10C) pressure dew point, removes 70 of oil

29
Contd
  • Function
  • Level of Application
  • Removes moisture produces a 35 to 50F (-1.67
    to 10C) pressure dew point, removes 99.999 of
    oil aerosols, and all particles .025 microns and
    larger
  • Removes moisture produces a 35 to 50F (-1.67
    to 10C) pressure dew point, removes 99.999 of
    oil aerosols, all particles .025 microns and
    larger, oily vapor, oily smell, oily taste
  • Instrument Air, Paint Spraying, Powder Coating,
    Packing Machines
  • (Dryer, Oil remover filter)
  • Indoor Applications, Food Industry, Dairy
    Industry, Laboratories
  • (Dryer , Filter and Oil vapour absorber)

30
Contd
  • Level of Application
  • Function
  • Breathing Air
  • (continuous or portable)
  • Removes harmful compressed air contaminants and
    will produce Grade D breathing air

31
How to get efficiency and power savings?
  • Establish regular maintenance programme
  • Hunt for air leaks
  • Educate your plant staff and emphasizing the
    importance of monitoring the line
  • Check system operating pressure

32
References
  • Agalloco James, Carleton J. Fredric Validation
    of Pharmaceutical Processes Third edition
  • Syed Imitiaz Haider, Pharmaceutical Master
    Validation Plan, The ultimate guide to FDA , GMP
    and GLP compliance
  • Syed Imtiaz Haider, Validation Standard
    Operating Procedure,2nd Edition
  • www.usvalidation.com
  • http//www.validationwhat.com/compressed-air-quali
    ty.html
  • http//validationworld.com

33
  • THANK YOU
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