Process of Entering the Air Shower
The process of entering an air shower is a crucial contamination control step that ensures individuals or materials are properly decontaminated before they access controlled environments, such as cleanrooms or manufacturing areas. The process is as follows:
- Approach: Individuals or materials approach the air shower entrance.
- Activation: The air shower is activated either manually or automatically when sensors detect movement.
- Entry: The entrance door opens, allowing access to the air shower chamber.
- Decontamination: High-velocity, filtered air is emitted, thoroughly removing particles and contaminants from clothing and surfaces.
- Exit: After the decontamination cycle, the exit door opens, and individuals or materials can proceed into the controlled environment, which is maintained at a higher level of cleanliness.
The process of entering an air shower ensures that only properly decontaminated individuals or materials access the dust-free workshop or any other controlled area, preventing contamination.
Corner Air Shower
A corner air shower is a specialized contamination control system designed to fit into the corner of a room or facility. These air showers are a space-saving solution for industries where maintaining cleanliness and decontamination are essential but space is limited.
Corner air showers are strategically positioned at the corner of a room, and they serve to ensure that personnel and materials are thoroughly decontaminated before entering controlled environments. High-velocity, filtered air is emitted within the corner air shower, creating an environment that effectively dislodges and captures particles and contaminants from clothing and materials.
These systems are customizable, allowing for adjustments to air velocity and shower duration to meet the specific requirements of different industries. Corner air showers are particularly valuable in settings where space optimization is crucial, such as cleanrooms, laboratories, and production facilities with limited floor space.
Sliding Door Air Shower
A sliding door air shower is a sophisticated solution designed to enhance the efficiency and functionality of traditional air showers. These systems feature automated sliding doors, a departure from the manual swing doors found in conventional air showers. This innovation streamlines the decontamination process and reduces the risk of human error during entry and exit.
Automatic sliding door air showers offer several advantages. They expedite the movement of personnel and materials in and out of the air shower, which is especially beneficial in environments with high foot traffic. The automation minimizes the time required for decontamination and ensures that individuals do not bypass the process. These systems can also include sensors to prevent doors from opening until the decontamination cycle is complete, enhancing control and contamination prevention.
The customizable nature of these air showers allows users to set parameters like air velocity and shower duration, catering to the specific needs of various industries. Automatic sliding door air showers are a valuable addition to settings where maintaining the highest standards of cleanliness is paramount.
Purified Air Shower
A purified air shower is a contamination control system designed to ensure that the air used in the decontamination process is clean, free from particles, and contaminants. These air showers are equipped with advanced filtration systems, including high-efficiency particulate air (HEPA) filters, to provide purified air for decontamination.
As individuals or materials pass through a purified air shower, the system emits high-velocity, filtered air that has been cleansed of particles as small as 0.3 microns. This ensures that the decontamination process occurs with the highest level of cleanliness and efficacy.
Purified air showers are commonly used in industries and facilities where maintaining strict contamination control standards is paramount, such as pharmaceutical manufacturing, biotechnology, and semiconductor production. They contribute to product quality, research integrity, and safety by ensuring thorough decontamination with purified air.