Vertical Laminar Flow Clean Benches EZL-VCB100 features an average wind speed of 0.45m/s. It has a protective lifting glass window that ensures easy monitoring. The HEPA filter ensures high-efficiency air purification by trapping fine particles and maintaining a contamination-free workspace. It includes a touch screen control panel for easy operation. Our Vertical Laminar Flow Clean Benches EZL-VCB100 is used to provide a sterile and particle-free environment for sensitive experiments.
| External Dimension (W× L × H) | 1040 × 725 × 820mm |
|---|---|
| Work Area Size (W× L × H) | 970 × 620 × 570mm |
| Illumination | >300 lux |
| Airflow Velocity | 950 m³/h |
| Average Wind Speed | 0.25 to 0.5m/s |
| LED Standard | 18 × 1 |
| Cleanliness Grade | Level 100 |
| Noise Level | Less than equal to 65 dB |
| Filtration Efficiency (% at 0.3µm) | 99.99 |
| Material | Cold-rolled steel plate sprayed with plastic or stainless-steel. tabletop is sanded stainless steel |
| Power Supply | 220 V/ 50 Hz |
Low vibration airflow
Filter replacement reminder
Protective glass window
Waterproof power socket
Rust-resistant material
Vertical Laminar Flow Clean Benches EZL-VCB100 supports contamination-free handling of samples in microbiology, biotechnology, and cell culture labs. It provides a safe and controlled environment for preparing sterile solutions and reagents.
The Vertical Laminar Flow Clean Bench EZL-VCB100 creates a sterile environment by directing air through high-efficiency filters before it enters the workspace. The vertical airflow ensures contaminants are pushed downward and away from the working surface, reducing the risk of sample contamination. This controlled airflow design is particularly effective for handling sensitive laboratory procedures such as culture preparation or sterile material handling. The system provides consistent protection for both samples and processes, ensuring reliable experimental outcomes.
Our Vertical Laminar Flow Clean Bench EZL-VCB100 is equipped with features such as a clear viewing window, integrated lighting, and easy-to-use controls. These design elements allow operators to perform sterile procedures comfortably and with high visibility. The ergonomic working height ensures reduced operator fatigue during long tasks. Together, these features create a convenient working environment while maintaining laboratory cleanliness.
Ezilab’s Vertical Laminar Flow Clean Bench EZL-VCB100 ensures sample integrity by minimizing the risk of contamination from airborne particles. With filtered vertical airflow, it provides a constant sterile barrier over the work surface. This protection is crucial in microbiology, cell culture, and pharmaceutical research, where even minor contamination can compromise results. By maintaining a controlled environment, the unit safeguards sensitive experiments and enhances data reliability.
The Vertical Laminar Flow Clean Bench EZL-VCB100 requires regular inspection and replacement of its HEPA or ULPA filters to maintain proper airflow and sterility. Routine cleaning of the interior workspace with appropriate disinfectants ensures ongoing contamination-free operations. Checking airflow velocity and system alarms, if equipped, is essential for optimal functioning. These maintenance steps are straightforward, making the unit reliable and cost-effective in long-term laboratory use.
The Vertical Laminar Flow Clean Bench EZL-VCB100 uses high-efficiency HEPA filters to remove dust, microorganisms, and airborne contaminants before air reaches the work surface. This ensures a sterile working zone, critical for maintaining sample quality and accuracy. The filters are designed for high retention efficiency and long-lasting performance. Regular monitoring and timely replacement are important to sustain peak functionality.
The Vertical Laminar Flow Clean Bench EZL-VCB100 is typically equipped with sturdy casters that allow for safe and easy relocation. This mobility makes it convenient for laboratories where flexibility is needed, such as multi-purpose work areas. Despite its mobility, the unit is stable once positioned, ensuring steady airflow and consistent sterility. This adaptability supports efficient use of lab space without compromising performance.