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Air Flow Analysis in Pharmaceutical

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Contains central plinth with filling-machine enclosure above ... air has to pass around central plinth and filling-machine enclosure ... – PowerPoint PPT presentation

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Title: Air Flow Analysis in Pharmaceutical


1
Air Flow Analysis in Pharmaceutical Clean Rooms
  • Patrick Phelps
  • ( Flowsolve )
  • and
  • Richard Rowe
  • ( Clean Room Construction Ltd )

IPUC 8 - Luxembourg - May 2000
2
Air Flow Analysis in Pharmaceutical Clean Rooms
  • Industrial Context
  • Health and Safety Issues
  • Application to an Existing Room
  • Application to New Ventilation Designs
  • Conclusions
  • Experimental Verification

3
Clean Rooms
  • Areas concerned with the
  • preparation, processing and packaging
  • of pharmaceutical products
  • Strict codes of practice employed to eradicate
    risk of product contamination

4
Clean Rooms
  • Personnel access controlled
  • 2-layer sterile over-clothing
  • Equipment sterilised before entry
  • Strict cleansing procedures
  • Particular attention to ventilation

5
Ventilation of Clean Rooms
  • Design and performance of air supply, filtration,
    and extraction arrangements must meet exacting
    standards
  • Positive pressure areas
  • Use of Laminar Flow Units (LFUs)

6
Laminar Flow Units
  • Devices which deliver a controlled
  • down-draught of re-filtered air
  • over sensitive regions
  • preparation areas
  • processing areas
  • packaging areas
  • storage areas

7
Air Flow Analysis in Pharmaceutical Clean Rooms
8
CFD Application to Air Flow Analysis in Clean
Rooms
  • Context
  • Upgrade of ventilation system in
  • a suite of clean rooms at a
  • UK pharmaceutical company

9
CFD Application to Air Flow Analysis in Clean
Rooms
  • Objective
  • Use CFD to ensure exacting requirements
  • can be met , following installation of a
  • number of LFUs .

10
CFD Application to Air Flow Analysis in Clean
Rooms
  • Workscope
  • 3 rooms selected as representative
  • examples of areas being upgraded
  • Room 30
  • Room 23
  • Room 42

11
Modelling Considerations - 1
  • Irregular shaped domains
  • Internal Obstructions to flow
  • Cartesian grid employed
  • K-e (Chen) turbulence model used
  • Buoyancy important in transient
  • (otherwise assume isothermal)

12
Modelling Considerations - 2
  • Dependent variables solved
  • pressure, p
  • lateral velocity component, U
  • vertical velocity component, V
  • Longitudinal velocity component, W
  • Turbulence kinetic energy, k
  • Turbulence energy dissipation rate, e
  • residence time parameter, tres
  • (temperature, T (for transient)

13
Modelling Considerations - 3
  • Boundary Conditions
  • Air supply ducts
  • prescribed sources of mass, momentum, turbulence
    and residence time
  • Air Extract ducts
  • specified fixed-pressure outlet sinks
  • LFUs
  • inlets and outlets specified as above

14
Representation of LFUs
  • Air flow in individual units not solved
  • treated as internal blockages in domain
  • air discharged from base at prescribed rate
  • matching intake from front face
  • interactive updating of discharge residence time
  • constant internal residence time assumed

15
Room 30
  • Small room - 4.94 x 5.94 x 2.92 m.
  • Used for processing, filling and packaging of
    products
  • Contains central plinth with filling-machine
    enclosure above
  • Conveyor-linked trays outboard of enclosure, for
    containers finished goods

16
Room 30 - Before
17
Room 30 Simulations
  • Steady flow patterns before
  • LFUs in enclosure only
  • Steady flow patterns after
  • following fitment of 10 new LFUs
  • 75,000 node 3-D model
  • Distribution 50 x 30 x 50

18
Room 30 - After
19
Room 30 Simulations
  • Objectives
  • Check for dead zones
  • ensure ventilation criteria met
  • Criteria
  • 25 Air changes per hour
  • (residence time 144 seconds)

20
Room 30 - Sectional Planes
21
Room 30 - Before
22
Room 30 - After
23
Room 30 - Before
24
Room 30 - After
25
Room 30 - Before
26
Room 30 - After
27
Room 30 - Before
28
Room 30 - After
29
Room 30 - Before
30
Room 30 - After
31
Room 30 - Before
32
Room 30 - After
33
Room 30 - Before
34
Room 30 - After
35
Room 30 - Before
36
Room 30 - After
37
Room 30 - Before
38
Room 30 - After
39
Room 30 - Before
40
Room 30 - After
41
Room 30 Ventilation Summary(after refurbishment)
  • Complex flow paths between inlet and outlet
  • Pattern complicated by LFU intake extraction
    flows
  • air has to pass around central plinth and
    filling-machine enclosure
  • air in near-side passage has to run gauntlet of
    LFUs

42
Room 30 Ventilation Summary(after refurbishment)
  • Outflow-weighted residence time of 121 seconds
    meets client criterion
  • near extract air considerably older than
    far extract air
  • some dead zones still apparent
  • evidence of entrainment into more than one unit

43
Dead Zones - before
44
Dead Zones - after
45
LFU intake times - 1
46
LFU Unit intake times - 2
47
LFU Unit intake times - 3
  • Units D1, D2, B2, C2, A1 receive considerably
    fresher air than their neighbours A2-A4, B2 and
    C1
  • Air entering A4 is 2.2 times older than that
    entering D1
  • Air leaving A4 exceeds air-change criterion en
    route to outlet

48
Conclusions
  • Residence time analysis concept adds
    considerable value to vector and contour plots in
    assessment of complex ventilation flows.
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