Cleanrooms are specially designed and maintained environments where the concentration of airborne particles is controlled to specified limits. They are essential in industries where microscopic contamination can adversely affect product quality, including pharmaceuticals, biotechnology, medical devices, semiconductors, and healthcare.

The concept of cleanrooms originated in hospitals in the 19th century, but modern cleanroom technology began during World War II to improve the quality and reliability of instrumentation and munitions. Willis Whitfield of Sandia National Laboratories developed the modern laminar flow cleanroom in 1960, revolutionizing contamination control.

According to ISO 14644-1, a cleanroom is "a room in which the concentration of airborne particles is controlled, and which is constructed and used in a manner to minimize the introduction, generation, and retention of particles inside the room, and in which other relevant parameters (e.g., temperature, humidity, pressure) are controlled as necessary."

• Particle: A solid or liquid object ranging from 0.1 to 5μm in size that can become airborne and cause contamination
• Air Changes per Hour (ACH): The number of times the entire air volume in a room is replaced per hour
• HEPA Filter: High Efficiency Particulate Air filter that removes 99.97% of particles ≥0.3μm
• ULPA Filter: Ultra Low Penetration Air filter that removes 99.999% of particles ≥0.12μm
• Laminar Flow: Unidirectional airflow moving in parallel streams with minimal turbulence
• Turbulent Flow: Non-unidirectional airflow with mixing patterns

Cleanroom performance is evaluated under three different occupancy states, each representing different operational conditions:

The International Organization for Standardization (ISO) developed the ISO 14644 series of standards for cleanrooms and associated controlled environments. ISO 14644-1 specifically addresses classification of air cleanliness by particle concentration.

The direction and pattern of airflow are critical design considerations that directly impact contamination control effectiveness:

Cleanrooms maintain pressure differentials to prevent contamination from less clean areas:

• Positive Pressure: Higher pressure inside cleanroom prevents ingress of contaminants from surrounding areas
• Negative Pressure: Lower pressure contains hazardous materials within the room (e.g., potent compound handling)
• Pressure Differential: Typically 10-15 Pascals between adjacent rooms of different classifications
• Cascade Design: Pressure decreases progressively from cleanest to least clean areas

While not specified in ISO standards, typical air change rates for different cleanroom classes are:

• Modular Panel Systems: Pre-fabricated panels with smooth, non-porous surfaces (typically steel, aluminum, or composite)
• Integral Coving: Curved junctions between walls and floors/ceilings to eliminate corners where particles can accumulate
• Sealed Joints: All joints and penetrations must be sealed to prevent air leakage and particle accumulation
• Non-shedding Materials: All surfaces must not generate particles through abrasion or degradation

• Epoxy Terrazzo: Seamless, chemical-resistant, durable, with conductive properties if needed
• Vinyl Sheet Flooring: Seamless installation with heat-welded seams
• Raised Access Floors: Allow services to run underneath, with perforated tiles for air return
• Coved Base: Curved junction between floor and wall (minimum 50mm radius)

• Sealed fixtures to prevent particle accumulation
• Integrated into ceiling panels for smooth surfaces
• Adequate illumination levels (typically 800-1000 lux at work surface)
• Flicker-free operation to reduce eye strain
• Emergency lighting with battery backup

All utilities and services must be designed to minimize contamination risk:

• Minimal Horizontal Surfaces: Pipes, conduits, and cables should run vertically or in service voids
• Sealed Penetrations: All service entries must be properly sealed
• Accessible Maintenance: Service panels and access points for maintenance without compromising cleanroom integrity
• Material Compatibility: All materials must withstand cleaning agents and disinfectants