Labzee Dynamic Climate Chamber BZDY-504 features a 120L stainless steel chamber capable of maintaining precise temperatures from -20°C to +150°C. It offers a humidity range of 20% to 98% RH with ±0.5°C stability ensuring reliable and repeatable test conditions. The integrated dual-level water monitoring system safeguards against dry heating, enhancing operational safety. Its advanced PID-controlled touchscreen interface enables accurate real-time monitoring and adjustments of test parameters. Our Dynamic Climate Chamber BZDY-504 is ideal for stability testing, materials research, and controlled environmental simulations across various industries.
$12,439.00
| Chamber Volume | 120 L |
| Temperature Range | -20 to +150℃ |
| Temperature Range Without Light | 0 to 55℃ |
| Temperature Stability | ±0.5℃ |
| Temperature Deviation | ±2℃ |
| Temperature Uniformity | Less than 2℃ |
| Operating Temperature | -5 to +25℃ |
| Insulation Layer | Polyurethane Foam Insulation / Fiberglass |
| Humidity Range | 20 to 98% RH |
| Humidity Deviation | ±3% RH |
| Temp. Sensor | PT100 |
| Cooling Method | Compressor, Air Cooling |
| Power Supply | AC380V/220V ±10%, 50Hz ±0.5 |
| Power Consumption | 2500W |
| Chamber Size (W×D×H) | 45×45×60 cm |
| Exterior Size (W×D×H) | 80×110×170 cm |
Labzee Dynamic Climate Chamber BZDY-504 is suitable for industrial and mining enterprises, laboratories, and scientific research institutions requiring controlled temperature and humidity environments.
Frequently Asked Questions
1: How accurate is the humidity and temperature control in the BZDY-504 chamber?
Dynamic Climate Chamber BZDY-504 offers ±0.5°C temperature stability, <2°C temperature uniformity, and precise RH control from 20% to 98%, ensuring consistent and repeatable testing conditions.
2: What is the advantage of the touchscreen PID controller?
The touchscreen PID controller provides user-friendly access to real-time monitoring, precise parameter adjustment, and customizable program cycles for complex climate simulations.
3: Can the chamber operate continuously under extreme temperature and humidity conditions?
Yes, Dynamic Climate Chamber BZDY-504 is engineered to run long-duration tests from -20°C to +150°C with 20% to 98% RH, supported by an efficient compressor system and protective monitoring controls.
4: How does the dual-level water monitoring system improve safety?
Dynamic Climate Chamber BZDY-504 detects low water levels and prevents dry heating by triggering automatic shutdown and alarms, ensuring equipment safety and test reliability.
5: Can test data be exported or logged?
Yes, Dynamic Climate Chamber BZDY-504 includes a USB port for data export and environmental condition logging, enabling detailed documentation and analysis.
6: What kind of safety features are integrated into the chamber?
Dynamic Climate Chamber BZDY-504 includes protections against leakage, over-temperature, compressor overload, water shortage, and heater overheating, plus audible/visual alarms.
7: What is a Dynamic Climate Chamber used for?
Dynamic Climate Chambers are used to simulate controlled temperature and humidity conditions for testing product stability, reliability, and performance under varying environmental cycles.
8: What industries commonly use Dynamic Climate Chambers?
These chambers are widely used in pharmaceuticals, electronics, automotive, materials research, and industrial testing laboratories for quality control and product validation.
9: What chamber capacities are available?
Labzee Dynamic Climate Chambers are offered in multiple models with capacities ranging from 120L to 504L, allowing flexibility for both small-scale laboratory use and larger industrial testing.
10: What is the temperature and humidity range of Labzee Dynamic Climate Chambers?
They offer a wide operational temperature range from extremely low to high levels and provide stable humidity control to support diverse testing applications.
11: How is humidity controlled within the chamber?
Humidity is regulated through a PID-controlled system with steam generation and a dual-level water monitoring mechanism, ensuring stable humidity without risk of dry heating or system failure during long test cycles.
12: What ensures temperature uniformity in the chamber?
The chambers use uniform airflow circulation and high-performance insulation to maintain consistent temperature gradients, ensuring reliable and repeatable test results across all chamber zones.
