Mold incubator with temperature & humidity control NovaIncu MD450-I
- Constructed with a fully stainless steel workspace and shelves within a protective steel shell.
- Large dual-layer glass window and inner glass door allow monitoring without disturbance.
- Energy-efficient compressor features intelligent defrost and long-life design.
- 3D uniform heating and independent UV lighting create an ideal, controllable environment.
- Core control relies on a high-speed CPU chip and a sensitive Pt resistance sensor.
- Fully automated humidity control with an alert system for low water levels.
- Dynamic协同 algorithm prevents interference between temperature and humidity settings.
- Extensive programmability up to 99 hours with comprehensive safety alarms.
- User-friendly functions include parameter memory and display calibration.
- Can be equipped with an auxiliary safety thermostat for critical applications.
| Model | NovaIncu MD450-I | |
| Chamber volume(L) | 450 | |
| Temperature Control Range | 5℃~50℃ | |
| Temperature | Resolution | 0.1℃ |
| Fluctuation | ±0.5℃ | |
| Uniformity | ± 2℃ at 37℃ | |
| controller | PID microprocessor control, soft touch, LED display | |
| Sensor | Pt 100 resistor | |
| Timer | Power-on, power off and working. Timing range: 1min-99hr | |
| Humidity range | 50%-90% | |
| Humidity | Accuracy | ±0.1%RH |
| Fluctuation | ±3%RH | |
| controller | PID microprocessor control, soft touch, LED display | |
| Sensor | Capacitor type | |
| Material | Internal | Mirror polished 304 stainless steel |
| External | Steel (powder coating) | |
| Dimensions (WxDxH,cm) | Internal | 70*65*95 |
| External | 85*91*173 | |
| Net Weight(Kg) | 185 | |
| Consumption Power(W) | 2330 | |
| Shelf Size(mm) | 678*630 | |
| Shelf Qty(Standard/Maximum) | 3/17 | |
| Power Supply | 220V/50Hz (Optional: 220V/60Hz, 110V/60Hz) | |
In public health laboratories of developing countries, robust and reliable incubators are critical for disease surveillance and diagnosis. They are used in the identification of tuberculosis (culturing *M. tuberculosis*), diagnosis of bacterial meningitis from cerebrospinal fluid, and monitoring antibiotic resistance patterns.
The challenges here are unique: often intermittent power supply, voltage fluctuations, limited funding, and harsh environmental conditions (heat, dust, humidity). Therefore, the ideal incubator for such settings prioritizes durability, simplicity, and power resilience. Models with excellent insulation (like water-jacketed designs) can maintain temperature longer during outages. Analog controls can be more serviceable than complex digital ones. Solar-powered or battery-backup compatible units are highly valuable. NGOs and global health initiatives often focus on providing and maintaining such equipment.
Furthermore, incubators are used in quality control of vaccines in national regulatory labs and in monitoring the safety of water supplies through microbial testing. In this context, a functioning incubator is not just a piece of lab equipment; it is a cornerstone of the healthcare infrastructure, enabling local diagnosis and informed public health responses, reducing dependency on distant reference laboratories and saving lives through timely intervention.
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