Choosing and Organizing Cleanroom Furniture to Meet Recommended Gowning Protocol
Manufacturers invest hundredsāeven thousandsāof dollars per square foot of cleanroom space to meet ISO-proscribed particle counts. Shouldn't the same standards be required of the people who enter and potentially contaminate this ultra-clean environment?
Proper cleanroom garments, including hoods, face masks, booties and gloves, help to contain particles that people emit. Yet improper gowning procedures can negate your investment in cleanliness and threaten yields of sensitive semiconductor devices. Once a garment is contaminatedāviolated by contact with a dirty surfaceāit spreads particles everywhere it goes.
You can train personnel on proper garmenting procedures, but how do you guarantee compliance? A violated garment doesn't set off alarms, and few facilities can afford quality control monitors to supervise every person through every washing and dressing stage. Yet if strict controls are not observed, dirty gloves and coveralls almost certainly will come in contact with clean operations.
An Organized Gowning Area that Supports Clean Protocol
The simplest and most economical approach to this dilemma is a correctly designed gowning area, complete with well-designed cleanroom furniture, that keeps personnel on a clean track.
This design starts with a room with pressure greater than that of the outside air, but lower than the cleanroom. This cascading pressure differential reduces the opportunity for contaminants to enter each controlled space. It includes a laminar flow of HEPA-filtered air, typically emitted through ceiling filter/fan units. This continuous wash of clean air immediately removes personnel-emitted contaminants, as well as particles present even in cleanroom-laundered garments (see Figure 1). Failure to maintain the desired particle standard in the change area will lead to contaminating clean garments.
Activity
No. of particles (>= 0.3Āµm)
Person emits during garmenting process
3,000,000/min.
Cleanest skin (hands)
10,000,000/ft2
Employee street clothes
10,000,000 to 30,000,000/ft2
Floor and bench surfaces
> 10,000,000/ft2
Garments supplied by cleanroom laundry
1,000,000/ ft2
Figure 1: Gowning Area Particle Generators Source: Encyclopedia of Clean Rooms, Bio-Cleanrooms and Aseptic Areas, Dr. Philip Austin, P.E., 2000
The Change Room illustration below depicts an effective floor plan that places the proper gowning stations in appropriate locations. Although many variations on this layout are possible, they should support these key garmenting guidelines:
Don't Touch! Most cleanliness violations occur when a garment is touched by dirty hands, or when it touches a dirty floor. Hands and gloves should therefore be washed and dried frequently. Select washers and dryers with no-touch IR sensors to minimize the chance of violating gloves. Maintain ultraclean, unviolated surfaces where garments can be donned without contamination. Properly placed gowning benches or use of a special gowning platform helps maintain ānot stepā areas where a coverall may touch the ground during gowning.
Dress from the Head Down! That way, released particles won't fall on clean garments or booties.
Understand Garment Design! In most instances, gloves and booties are worn over coverall sleeves and cuffs, and hoods are tucked inside collars. Make sure that personnel are trained on how to seal these gaps between clothing, and include a mirror to allow final self-inspection. Hang a photo of a correctly garbed person next to the mirror as a "how-to" guide.
Minimize Motion! As Figure 2 indicates, people wearing cleanroom garments emit thousands of particles per minute even when sitting still! People in street clothes, walking from one change room location to another, release millions of particles. Change room plans should therefore minimize motion, especially during the final stages of dressing, by efficiently organizing the flow of personnel from one station to another.
Minimize Maintenance! Do you have dedicated, trained personnel to peel off adhesive shoe mats, wipe down gowning benches, keep "clean zones" regularly scrubbed, empty waste receptacles, restock garb dispensers, and perform other upkeep with the absolute regularity that your protocol requires? If not, look for ways to minimize reliance on humansāthrough automation, careful product positioning, choice of materials, and so forth. Initial cost may be higher, but reduced maintenance and greater compliance provide a rich return on your investment!
Train and Reinforce! A good change room design supports proper protocol, but it doesn't teach it. Make sure that personnel complete a formal training program, and stress protocol by hanging reminder posters at every gowning station that reinforce proper procedures.
Personnel Activity
Snap Smock
Standard Coverall
2-Piece Coverall
TyvekĀ® Coverall
Membrane Coverall
No Movement
100,000
10,000
4,000
1,000
10
Light Movement
500,000
50,000
20,000
5,000
50
Heavy Movement
1,000,000
100,000
40,000
10,000
100
Change Position
2,500,000
250,000
100,000
25,000
250
Slow Walk
5,000,000
500,000
200,000
50,000
500
Fast Walk
10,000,000
1,000,000
400,000
100,000
1,000
Figure 2: Austin Contamination Index Particles >= 0.3Āµm emitted per minute in garment indicated Source: Encyclopedia of Clean Rooms, Bio-Cleanrooms and Aseptic Areas, Dr. Philip Austin, PE, 2000 Note: Light/heavy movement refer to partial body movements (motioning with arm, tapping toes, etc.). Change of position refers to whole body motion (standing up, sitting down, etc.).
Cleanroom coats and frocks made of ESD-safe polyester Grid and economical, fluid-resistant polyester taffeta are comfortable and long wearing, ideal for lab and medical use.
Fluid-Resistant, Static-Safe Maxima Cleanroom Coveralls
Fluid-resistant Maxima ESD coveralls are ideal for pharmaceutical, medical, healthcare use; ESD Grid designs available for micro/electronics cleanrooms
Long-Wearing Cleanroom Boots and Shoe Covers
Cleanroom boots with anti-static sole meet strict cleanroom standards (shown: B-Fore reusable boot with molded Stella sole); durable-sole reusable shoe covers also available.
Bouffants Caps and Other Apparel
Reusable polyester taffeta bouffant snood caps and other garb meet the strictest cleanroom standards
Reusable Cleanroom Hoods
Pullover cleanroom hoods in several ESD-safe materials, include Grid polyester, shown, with and without sewn-in face cover
Reusable Garments
Gowning Procedures
Polyester Taffeta Garments
Reusable Maxima ESD Cleanroom Coverall
Gowning ProceduresProper gowning protocol supports compliance with cleanliness standards. We explain and demonstrate these recommendations.
Polyester taffeta fabric provides contamination control and fluid resistance; ideal for food, pharmaceutical and medical/healthcare usePolyester Taffeta GarmentsPolyester taffeta fabric provides contamination control and fluid resistance; ideal for food, pharmaceutical and medical/healthcare use (shown: frocks and hair nets).
Fluid-resistant Maxima ESD cleanroom coveralls: ISO-5 clean, static safe and fluid resistant | 4953-36 displayedReusable Maxima ESD Cleanroom CoverallFluid-resistant Maxima ESD cleanroom coveralls: ISO-5 clean, static safe and fluid resistant for pharmaceutical, food, and medical/healthcare use; Grid coveralls ideal for semiconductor/electonics use.
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