Mold incubator with temperature & humidity control NovaIncu MD150-I
Mold incubator with temperature & humidity control NovaIncu MD150-I
Features
- Built with a durable stainless steel interior, external steel housing, and large safety glass window.
- Features dual doors and stainless steel shelving for robust, flexible use.
- High-performance compressor operates quietly with minimal temperature drift.
- Patented 3D heating technology and internal UV illumination ensure uniform, sterile conditions.
- Digital controller with fast processor precisely manages complex climatic parameters.
- Automated humidity system includes a two-stage water reservoir and lack alarm.
- Dynamic interactive control maintains perfect equilibrium between heat and moisture.
- Programmable for multi-day experiments with a 99-hour timer and multiple alarm safeguards.
- System features calibration, memory, and continuous self-diagnostics for reliability.
- Upgradeable with an independent over-temperature cutoff for maximum sample safety
Specifications
| Model | NovaIncu MD150-I | |
| Chamber volume(L) | 150 | |
| Temperature Control Range | 5℃~50℃ | |
| Temperature | Resolution | 0.1℃ |
| Fluctuation | ±0.5℃ | |
| Uniformity | ± 1℃ 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 | 50*40*75 |
| External | 65*65*143 | |
| Net Weight(Kg) | 118 | |
| Consumption Power(W) | 1120 | |
| Shelf Size(mm) | 478*380 | |
| Shelf Qty(Standard/Maximum) | 2/10 | |
| Power Supply | 220V/50Hz (Optional: 220V/60Hz, 110V/60Hz) | |
Introduction about incubator
Synthetic biology, which aims to design and construct new biological parts and systems, uses incubators as essential platforms for prototyping and testing. The “Design-Build-Test-Learn" cycle heavily relies on growing engineered microorganisms.
After assembling genetic circuits (e.g., for a biosensor or a metabolic pathway) in host cells like *E. coli* or yeast, the first test is transformation and outgrowth in a shaking incubator. Colonies are then picked and grown in small-scale cultures within incubators to characterize circuit performance—measuring fluorescence, enzyme activity, or product output under controlled temperature and aeration. High-throughput screening of genetic variant libraries is conducted in microtiter plates incubated in precise, stackable shaker-incubators.
Incubators also provide the environment for cell-free systems, where synthetic gene networks operate in extracts held at constant temperature. The stability and reproducibility offered by modern incubators allow synthetic biologists to collect quantitative data that feeds back into computational models, refining the next design iteration. In essence, the incubator is the standardized, physical “testbed" where abstract genetic designs become tangible, measurable biological reality, enabling the programming of living cells for applications from environmental remediation to targeted therapeutics.
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