Contamination Control Study: BSC Chamber LIGO Observatory Project Number: FVMS0506-01 Baseline...
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![Page 1: Contamination Control Study: BSC Chamber LIGO Observatory Project Number: FVMS0506-01 Baseline Results August 9, 2006.](https://reader035.fdocuments.us/reader035/viewer/2022070412/5697bf8a1a28abf838c8a977/html5/thumbnails/1.jpg)
Contamination Control Study:BSC ChamberLIGO Observatory
Project Number: FVMS0506-01Baseline ResultsAugust 9, 2006
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Objectives
Create a thermal/airflow FLOVENT model of the BSC Chamber and surrounding Cleanroom to determine airflow patterns and contamination concentration with respect to the following scenarios:
– Scenario 1:– BSC Chamber Air Supply/Extract: OFF
– Surrounding Clean Room Space Air Supply: ON
– Scenario 2:– BSC Chamber Air Supply: ON
– Surrounding Clean Room Space Air Supply: ON
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Personnel Assumptions
Personnel:– 4 personnel: 2 in BSC Chamber,
2 in surrounding cleanroom– Contamination Generation rate:
3950 particles/sec (≥ 0.5um) – Heat Generation rate: 85 W
sensible heat
Uniform heat and particle generation
Contamination rate based on: high quality cleanroom clothing systems at 25 washes and moderate personnel activity (Cleanroom Clothing Systems: People as a Contamination Source, Ljungqvist and Reinmuller)
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Personnel Locations
Only open door
Purge Airflow
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Cleanroom Overview
HEPA Filters: 400 cfm (0.188 m3/s) each, QTY: 20
Curtain opening: 8.5” height
17.33’
18.58’
17.42’
HEPA Filters outlined in red
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BSC Airflow Overview
Extract Flow: 2.8 m3/s (scenario 2) Flow direction
Perforated Floor:20% Open
Purge Airflow: 0.012 m3/s (25 cfm) Flow direction
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Air Shower OverviewAnnular Flow: 2.0 m3/s (scenario 2)
No Flow Area (Support rod hidden for clarity)
Core Flow: 1.0 m3/s (scenario 2)
Core Flow and Annular Flow approximated with flow accelerated through 3/8” holes on 1” pitch (11% Open)
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Simulation Results
BSC Chamber Air Supply and Extract Off
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Speed Profile through the Chamber Door
z
y x
Maximum Outward Flow
Maximum Inward Flow
Plane taken at the cross-section of the chamber door
The above table show a net airflow through the chamber of 0.0118m3/sec. However there is also an extra 0.0353 m3/sec air exchange at the open door.
Flow Rates Through Chamber DoorVolume Flow Out
(m^3/sec)Volume Flow In
(m^3/sec)Volume Flow Net
(m^3/sec)0.0471 0.0353 0.0118
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Room Airflow Profile
Plane taken at centerline of the room
View Orientation
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Room Airflow Profile
Plane taken at centerline of the room
Heated air exhausting from the chamber has a strong effect on the
airflow patterns of the room
View Orientation
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Chamber Airflow Profile
Plane taken at centerline of the chamber
View Orientation
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Chamber Airflow Profile
Plane taken at centerline of the chamber
We see that when the supply and exhaust in the chamber are turned off natural convection caused by the workers dominates the airflow patterns
View Orientation
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ISO Class Specifications
ISO-5ISO-6ISO-7ISO-8
Particle Density (particles/m3)
3,250,000325,00032,5003,250
The following slides show the areas of the space at various uniform concentration levels.
Maximum concentration:1,642,731 Particles/m3 (ISO 8)
0.5 um diameter particles
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ISO 7
ISO 6
ISO 5
ISO 4
ISO Class 5
Area of open door
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ISO Class 6
ISO 7
ISO 6
ISO 5
ISO 4
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ISO Class 7
ISO 7
ISO 6
ISO 5
ISO 4
Area of open door
Chamber doors hidden for visualization purposes
Location of maximum
concentration
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Simulation Results
BSC Chamber Air Supply and Extract On
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Chamber Airflow Profile
Plane taken at centerline of the chamber
View Orientation
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Chamber Airflow Profile
Plane taken at centerline of the chamber
View Orientation
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Room Airflow Profile
Plane taken at centerline of the chamber
View Orientation
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Room Airflow Profile
Plane taken at centerline of the chamber
View Orientation
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Flow Path to Extraction Tube
The picture on the right shows streamline paths from the core and annular flow areas to the extraction tube. Note that a small amount of air is flowing into the chamber though the top of the chamber door.
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Speed Profile through the Chamber Door
z
y x
Maximum Outward Flow
Maximum Inward Flow
Plane taken at the cross-section of the chamber door
Flow Rates Through Chamber Door
Volume Flow Out (m^3/sec)
Volume Flow In (m^3/sec)
Volume Flow Net (m^3/sec)
0.3761 0.1616 0.2145
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Extraction Pressure
The above plane is taken at the inlet to the extraction nozzle, and illustrates the pressure required to achieve a flow of 2.8 m3/sec and assumes the nozzle is venting to atmosphere
The above plane shows pressures ranging from -900 Pa to -3700 Pa
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ISO Class Specifications
ISO-5ISO-6ISO-7ISO-8
Particle Density (particles/m3)
3,250,000325,00032,5003,250
0.5 um diameter particles
The following slides show the areas of the space at various uniform concentration levels.
Maximum concentration: 199,055 Particles/m3 (ISO 7)
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ISO Class 5ISO 7
ISO 6
ISO 5
ISO 4
Chamber doors hidden for visualization purposes
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ISO Class 6
ISO 7
ISO 6
ISO 5
ISO 4
Location of maximum
concentration
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Summary A thermal/airflow FLOVENT model of the BSC Chamber and
surrounding Cleanroom has been created and simulated to determine airflow patterns and contamination concentration with respect to the following scenarios:
– Scenario 1:– BSC Chamber Air Supply/Extract: OFF – Surrounding Clean Room Space Air Supply: ON– Maximum Concentration: 1,642,731 particles/m3
– BSC Chamber open door in-flow: 0.04 m3/sec– Scenario 2:
– BSC Chamber Air Supply: ON – Surrounding Clean Room Space Air Supply: ON– Maximum Concentration: 199,055 particles/m3
– BSC Chamber open door in-flow: 0.16 m3/sec