Labzee Digital Cooling Incubator BZDL-512 is a high-volume, precision-controlled laboratory chamber with a chamber capacity of 1075 liters. It supports a temperature range from -10°C to 75°C, maintaining ±0.5°C stability and ±1°C uniformity for consistent conditions throughout the entire chamber. The incubator features a user-friendly digital control panel that simplifies the setup of temperature profiles, alarm thresholds, and programmable timers. Its dual refrigeration system and forced-air circulation ensure fast temperature recovery and uniform airflow, eliminating hot and cold spots. Our Digital Cooling Incubator BZDL-512 is ideal for critical storage and incubation needs in life science research and industrial laboratories.
| Chamber Volume | 1075L |
| Temperature Range | -10 to 75 ℃ |
| Display Resolution | 0.1 ℃ |
| Temperature Stability | ±0.5℃ |
| Temperature Uniformity | ±1℃ |
| Ambient Temperature | 20°C |
| Relative Humidity | 50% RH |
| Timing Range | 0 to 99h 59min |
| Continuous Operation | Long continuous operation |
| Refrigerant | R134a |
| Power Supply | AC 220V, 50Hz |
| Power Consumption | 2300W |
| Chamber Size (W×D×H) | 95×70×160 cm |
| Exterior Size (W×D×H) | 101×90×234 cm |
| Net Weight | 205 Kg |
| Gross Weight | 290 Kg |
3 Grids (Expandable to 15)
Labzee Digital Cooling incubator BZDL-512 is ideal for applications requiring reliable, repeatable incubation under high ambient temperature conditions, such as research, diagnostics, quality control, and testing laboratories.
Frequently Asked Questions
1: How does the dual refrigeration system in the Digital Cooling Incubator BZDL-512 enhance performance and reliability?
The Digital Cooling Incubator BZDL-512 utilizes a dual refrigeration system that alternates between two compressors, reducing mechanical stress, supporting continuous operation, and enabling rapid temperature recovery during frequent door access or high thermal loads.
2: What kind of airflow system does the Digital Cooling Incubator BZDL-512 use to maintain uniformity in a large chamber?
Digital Cooling Incubator BZDL-512 employs a forced-air convection system with precision-engineered internal air ducts. It ensures consistent temperature uniformity of ±1°C across the entire 1075L chamber, eliminating thermal gradients and supporting even sample incubation.
3: Can the Digital Cooling Incubator BZDL-512 integrate with data logging systems or LIMS platforms?
Yes, Digital Cooling Incubator BZDL-512 features both a USB data interface and a built-in data printer, facilitating direct data export and real-time monitoring, and making it compatible with most laboratory information management systems (LIMS).
4: What built-in safety mechanisms make the Digital Cooling Incubator BZDL-512 suitable for critical lab environments?
The unit is equipped with a leakage protection circuit, high/low temperature alarms, and overload safeguards—ensuring uninterrupted, safe operation for sensitive applications in research and industrial labs.
5: What level of precision does the Digital Cooling Incubator BZDL-512 offer in temperature control, and how is it achieved?
The Digital Cooling Incubator BZDL-512 features a digital microprocessor controller with 0.1°C resolution, achieving ±0.5°C temperature stability via PID control and dual-stage refrigeration—ideal for protocols requiring strict thermal accuracy.
6: What makes the ideal for high-throughput or multi-phase incubation workflows?
Its expansive 1075L capacity, programmable timing range of 0 to 99h 59min, and continuous operation capability make it ideal for temperature cycling, batch processing, and extended incubation in biotech, pharma, and QA/QC labs.
7: How does the design of the Digital Cooling Incubator BZDL-512 support contamination control and ease of maintenance?
The Digital Cooling Incubator BZDL-512 features a corrosion-resistant stainless-steel interior that allows for easy disinfection, while its tempered glass door provides visibility without the need to open the chamber—reducing contamination risk and maintaining thermal integrity.
8: What are Labzee Digital Cooling Incubators used for in laboratories?
Labzee Digital Cooling Incubators are designed to maintain low and stable temperatures, making them ideal for cultivating microorganisms, storing reagents, and preserving temperature-sensitive biological samples such as enzymes, vaccines, and plant tissue cultures.
9: How do Labzee Digital Cooling Incubators differ from standard incubators?
Unlike standard incubators that typically provide only heating, Labzee Digital Cooling Incubators offer both heating and refrigeration. This enables precise control over a wider temperature range—often from -10°C to 75°C—making them suitable for experiments requiring sub-ambient conditions.
10: What is the typical temperature range of Labzee Digital Cooling Incubators?
Most Labzee Digital Cooling Incubators offer a temperature range from approximately -10°C to +75°C, supporting both cooling and warming cycles for a wide variety of laboratory applications.
11: Which lab applications require Labzee Digital Cooling Incubators?
Labzee Digital Cooling Incubators are used in microbiology, molecular biology, pharmaceutical testing, food safety, and environmental studies. They’re essential for low-temperature incubation, stability testing, and shelf-life assessments.
12: Can Labzee Digital Cooling Incubators maintain temperature stability over long periods?
Yes, Labzee incubators ensure long-term temperature stability with typical precision of ±0.5°C and uniformity across the chamber, providing consistent and reliable conditions for sensitive experiments.
13: Do Labzee Digital Cooling Incubators come with digital or programmable controls?
Yes, all Labzee Digital Cooling Incubators feature intuitive microprocessor-based digital control panels with programmable temperature settings, alarms, timers, and data logging for precise operation and regulatory compliance.
14: What chamber capacities are available in Labzee Digital Cooling Incubators?
Labzee offers a wide range of chamber sizes, from compact 80-liter models to high-capacity units exceeding 1600 litres—suitable for routine lab work as well as large-scale research and production needs.
15: Is forced air circulation important in Labzee Digital Cooling Incubators?
Labzee Digital Cooling Incubators use forced air circulation to ensure uniform temperature distribution and rapid recovery after door openings—critical for sample protection and accurate testing.
