Laminar Air Flow Hood For Cleanroom Air Flow System
Cleanroom Laminar Air Flow Hood
Is a laminar flow cabinet or clean bench, is an enclosed workstation designed to provide a contamination-free environment.
Specification:
Liquid tank seal laminar flow hood |
CLZ-1 | CLZ-2 | CLZ-3 |
|
Customized as request | ||
clean class | 100class(US209E) | ||
Air velocity | 0.35±5%m/s | ||
dBA | ≤65dB | ||
Speed Control | six-speed is adjustable | ||
Rated Air Flow | Customized as request | ||
Power Supply | 220V 50Hz |
Product Features:
1. Uniform laminar airflow: Ensures a smooth and consistent flow of air in a single direction, minimizing turbulence and reducing the risk of particle dispersion.
2. High-efficiency filtration system: Usually equipped with HEPA (High Efficiency Particulate Air) or ULPA (Ultra Low Penetration Air) filters that can trap particles as small as 0.3 microns with a very high efficiency (often above 99.97%).
3. Stainless steel construction: The cabinet is typically made of stainless steel to minimize particle accumulation, resist corrosion, and provide a durable and clean working surface.
4. Transparent shield or window: Allows for clear visibility of the work area while maintaining the integrity of the clean environment.
5. Illumination: Integrated lighting systems provide sufficient light for precise work.
6. Adjustable air velocity control: Enables users to set the airflow speed according to specific requirements.
7. Static control features (in some models): Helps prevent electrostatic discharge that could damage sensitive components or materials.
8. Compact and space-efficient design: Can be easily placed on various benches or countertops without occupying too much space.
Applications:
1. Biomedical research: Such as cell culture, microbiological studies, and handling of biological samples.
2. Pharmaceutical industry: For drug formulation, filling, and sterile packaging operations.
3. Electronics manufacturing: Assembly and testing of electronic components where dust and particles can cause defects.
4. Semiconductor production: Protects delicate wafers and circuitry during fabrication processes.
5. Nanotechnology research and development: Handles nanoscale materials and processes with extreme cleanliness requirements.
6. Food and beverage industry: In quality control labs and for specific processing steps where contamination must be avoided.
Advantages:
1. Maintains a highly clean environment: Significantly reduces the presence of airborne particles, dust, and microbes, minimizing the risk of contamination.
2. Protects samples and products: Ensures the integrity and quality of sensitive materials, samples, and products from external contaminants.
3. Enhances product quality and reliability: Improves the performance and yield of processes that require a sterile or particle-free environment.
4. Operator safety: Reduces the exposure of operators to harmful substances and lowers the risk of cross-contamination.
5. Consistency and reproducibility: Enables consistent and repeatable results in research, manufacturing, and testing procedures.
6. Easy to use and operate: With simple controls and clear working areas.
7. Versatile: Can be adapted to different applications by adjusting parameters and configurations.
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