Standard Freeze Dryer EZL-FDF101 is a small tabletop unit designed for drying water-based samples. It can hold 3 kg of ice with a condenser that gets as cold as -80°C. The unit comes with four to six shelves, allowing efficient freeze-drying of samples in different shapes and sizes. It features an advanced vacuum control system that speeds up freeze-drying while ensuring consistent results. Our Standard Freeze Dryer ensures optimal quality preservation, especially suited for food, pharmaceutical, and biotechnology.
| Condenser Temperature | -80 ℃ |
|---|---|
| Drying Area | 0.12 m² |
| Vacuum Degree | < 10 Pa |
| Condenser Capacity kg/24 hours | 3 to 4 kg / 24 hour |
| Sample Tray | Φ200 mm × 4 layers |
| Shelf Spacing | 70 mm |
| Bulk Liquid Capacity | 1.2 L |
| Vial Capacity Φ12mm | 820 pieces |
| Vial Capacity Φ16mm | 460 pieces |
| Vial Capacity Φ22mm | 244 pieces |
| Optional Manifold | 8 ports |
| Optional Flask | 1000, 500, 250, 100, 50 ml |
| Vacuum Pump Flow Rate | 2 L / S, 7.2 m³ |
| Voltage | 220 V, 50 Hz |
| Power | 970 W |
| Dimension | 565 × 420 × 790 mm |
| Weight | 70 kg |
Oil mist filtration system
Easy to clean surface
Anti – corrosion cold trap
Rapid freeze drying
Low maintenance design
Standard Freeze Dryer EZL-FDF101 ensures accurate temperature and vacuum regulation for reliable drying results. It is widely used in pharmaceuticals, biotechnology, and research labs to maintain sample integrity and extend shelf life.
The Standard Freeze Dryer EZL-FDF101 is designed to handle a wide range of biological, pharmaceutical, and food samples. The system efficiently removes moisture while preserving structural integrity, making it suitable for delicate materials like enzymes, proteins, or microbial cultures. It is equally effective for food research, where texture and nutritional value must be maintained. This adaptability ensures support both routine laboratory operations and specialized research studies.
Ezilab’s Standard Freeze Dryer EZL-FDF101 is equipped with a digital control system and clear display that simplifies monitoring of the drying process. Operators can easily set drying parameters and check progress without requiring advanced technical skills. Automated safety features reduce the chance of operational errors, making it a practical choice even for first-time users. This ease of use helps labs save time and improve overall workflow efficiency.
The Standard Freeze Dryer EZL-FDF101 is built with safety in mind, featuring systems that prevent overheating, pressure imbalance, and power failure risks. The equipment is designed to maintain stable working conditions even during long drying cycles. These safeguards not only protect sensitive samples but also ensure the operator’s safety during use. Reliable safety features make the instrument suitable for academic, pharmaceutical, and industrial environments.
Our Standard Freeze Dryer EZL-FDF101 is engineered for reproducibility, allowing laboratories to achieve consistent drying outcomes across multiple runs. The precise temperature and vacuum control minimize variations that could otherwise impact results. This reliability is particularly important in pharmaceutical and clinical applications where batch-to-batch consistency is critical. By ensuring stable performance, it helps maintain confidence in experimental and production outcomes.
The Standard Freeze Dryer EZL-FDF101 requires minimal routine maintenance, primarily involving cleaning of sample chambers and periodic checks of the vacuum system. Easy-access design ensures that users can perform basic upkeep without professional assistance. Regular maintenance extends the instrument’s service life and ensures stable performance over time. With simple care, it remains a reliable tool for many years of laboratory use.
Ezilab’s Standard Freeze Dryer EZL-FDF101 maintains precise control over temperature and pressure to avoid thermal or structural damage to delicate materials. By using gentle sublimation, moisture is removed without affecting biological activity or chemical composition. This makes it especially useful for proteins, vaccines, and plant extracts that require structural preservation. The system’s reliability ensures samples remain intact for accurate research or long-term storage.
