Labzee Floor Standing Air-Drying Ovens are advanced thermal processing systems designed for laboratory and industrial use. They offer chamber capacities ranging from 32 to 624 litres, with corrosion-resistant stainless steel interiors and high-efficiency forced air convection. They come equipped with user-friendly PID microprocessor controllers and large LCD screens for accurate monitoring and control. Our Floor Standing Air-Drying Ovens are ideal for drying, curing, and heat treating a wide range of materials in demanding research and production settings.
Chamber Volume
Temperature Range
Temperature Fluctuation
Temperature Uniformity
Temperature Resolution
Frequently Asked Questions
1: What is a floor standing air-drying oven used for?
Floor standing air-drying ovens are used for thermal drying, sterilization, baking, and heat treatment in laboratories and industrial settings. They are ideal for processes requiring uniform temperature distribution and controlled airflow, such as material testing, sample drying, and component curing.
2: How does forced air convection improve drying performance?
Forced air convection circulates heated air uniformly throughout the chamber, reducing drying time and ensuring consistent temperature distribution. This minimizes hot or cold spots, which is crucial for the reproducibility of sensitive processes.
3: What types of materials can be processed in these ovens?
These ovens can accommodate a wide range of materials, including glassware, metal parts, powders, textiles, and heat-stable biological samples. However, they are not suitable for flammable or volatile substances unless the model is specifically rated for such use.
4: What temperature range is typically supported?
Most of our Floor Standing Air-Drying Ovens offer temperature ranges from ambient +5°C up to 200–300°C, depending on the model. Higher-end units feature precise control with minimal temperature fluctuation and excellent uniformity.
5: Can the oven maintain long-duration heating cycles?
Yes, our ovens are designed for extended operation with programmable timers (often ranging from 1 to 9999 minutes), making them suitable for prolonged drying or curing cycles.
6: Is the temperature calibration adjustable?
Yes. Most models include a PID controller with offset adjustment, allowing users to calibrate the system against external temperature standards or compensations required for specific sample conditions.
7: Are there safety features for over-temperature protection?
Absolutely. Standard features often include over-temperature protection alarms, automatic shutoff, and safety thermostats to prevent overheating and protect both samples and users.
8: What is the typical construction material of the inner chamber?
The inner chamber is typically made of corrosion-resistant stainless steel, which ensures chemical resistance, thermal durability, and ease of cleaning.
