SENOVA BIOTECH (SHANGHAI) CO., LTD.
Product Details
Place of Origin: China
Brand Name: Senova
Certification: CE
Model Number: NovaIncu-80B
Payment & Shipping Terms
Minimum Order Quantity: 1 unit
Price: Available upon request
Packaging Details: plywood case
Delivery Time: 5-20 working days
Payment Terms: T/T
Supply Ability: 100 units
80L Low Temperature/ Refrigerated BOD Incubator NovaIncu BOD-80B(Programmable)
Features:
Features a double-door structure with a clear glass window for minimal thermal loss.
Constructed with a corrosion-resistant stainless steel chamber and external steel housing.
Low-noise compressor provides stable, long-life refrigeration with minimal fluctuation.
Omnidirectional heating and air circulation create a perfectly uniform environment.
Built-in lighting and power socket support diverse applications like BOD testing.
Sensitive Pt100 sensor and fast CPU enable rapid, accurate temperature responses.
Offers extensive 99-hour programmable control for automated workflow.
Multi-level alarms and parameter memory enhance safety and repeatability.
Dynamic self-diagnostics proactively monitor system health.
Can be upgraded with an independent over-temperature cutoff and UV decontamination.
Specifications
|
Model |
NovaIncu BOD-80B |
|
|
Chamber volume (L) |
80 |
|
|
Temp. Control Range |
0℃~70℃ |
|
|
Temperature |
Resolution |
0.1℃ |
|
Fluctuation |
±0.5℃ |
|
|
Uniformity |
± 1℃ at 37℃ |
|
|
controller |
PID microprocessor control, soft touch, LED display |
|
|
Sensor |
PT100 |
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|
Timer |
Power-on, power off and working. Timing range: 1min-99hr |
|
|
Material |
Internal |
304 stainless steel |
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External |
Steel (powder coating) |
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|
Dimensions (WxDxH,cm) |
Internal |
40×40×50 |
|
External |
55×65×118 |
|
|
Net Weight(Kg) |
73 |
|
|
Consumption Power(W) |
470 |
|
|
Shelf Size(mm) |
378×380 |
|
|
Shelf Qty(Standard/Max.) |
2/5 |
|
|
Power Supply |
220V/50Hz (Optional: 220V/60Hz, 110V/60Hz) |
|
*Notes:
10-segment temperature control program to realize temperature curve program running.
The inflow and outflow air speed is also adjustable.
Introduction about incubator
The interface through which users interact with an incubator has evolved dramatically, impacting usability and error prevention. Analog Era: Knobs and dials with simple thermostats.
Intuitive but imprecise, with no data logging or alarms. Early Digital: Basic LED displays and membrane keypads allowed precise setpoints but often had clunky menus. Modern Touchscreen: Color graphical interfaces now dominate. They offer intuitive navigation, clear real-time graphs of parameters, easy access to calibration menus, and straightforward programming of complex decontamination cycles. Ergonomics are also refined: doors that open smoothly with one hand, interior lights that automatically turn on, angled control panels for easy viewing, and audible/visual alarms that are distinct and attention-grabbing. Some models feature user profiles with password protection, allowing different lab members to have personalized settings or restricting access to critical controls.
Remote Interfaces: The latest trend is companion smartphone apps or web portals that mirror the touchscreen. This evolution in UI/UX design reduces training time, minimizes user error, and integrates the incubator into the digital lab, making sophisticated control more accessible than ever before.
