EziLab Desktop Reactor EZL-DR10 provides simultaneous digestion of up to 16 samples for COD digestion, nutrient analysis, and industrial water quality analyzer testing applications. Dual temperature zones cover 40C to 180C with 0.1C accuracy, while heating to 165C in approximately 20 minutes supports efficient batch processing. Compact design fits neatly on standard workbenches within controlled indoor laboratory environments, and humidity and ambient condition management maintains digestion consistency across cycles. The unit functions as a versatile water testing machine suited for both laboratory and industrial environments without complex installation. EziLab's Lab Equipment and water quality analyzers provide the full water quality analyzer and multi-sample desktop reactor range for precise environmental and industrial testing.



Quantity:
$2406
Capacity 16
Temperature Control Range 40˚C to 80˚C
Temperature Accuracy ± 0.1˚C
Digestion Temperature 40˚C to 180˚C
Temperature Zone Quantity 2
Ambient Temperature 5˚C to 45˚C
Heating Time From 25˚C to 165˚C in 20 minutes
Humidity Less than equal to 85 % RH
Power Consumption 300 W
Power Supply DC 24 V/ 12.5A
Dimension 359 × 195 × 167mm
Weight 4 kg
  • Dual temperature control

  • Built-in heating curve

  • Over temperature alarm

  • Touchscreen operation interface

  • Energy-saving operation

  • Desktop Reactor EZL-DR10 is ideal for digesting multiple water samples simultaneously for environmental and industrial analysis. It helps in accurate testing of COD, nutrients, and heavy metals to ensure water quality compliance.

Frequently Asked Questions

The Desktop Reactor EZL-DR10 provides a compact yet efficient system for conducting small to medium-scale chemical reactions. Its design allows precise control over temperature, agitation, and reaction conditions, which is essential for consistent synthesis outcomes. The unit is especially valuable for academic and industrial labs where reproducibility is critical. By simplifying complex processes, it enables researchers to focus more on analysis rather than manual adjustments.

Our Desktop Reactor EZL-DR10 is equipped with built-in safety mechanisms such as over-temperature protection, pressure relief options, and secure sealing to prevent accidental leaks. These safeguards protect both the user and the sample during high-demand experiments. The system’s automated monitoring minimizes operator intervention, reducing risks in sensitive chemical environments. This makes it a dependable choice for labs prioritizing safety.

Our Desktop Reactor EZL-DR10 offers stable temperature and mixing controls, ensuring that every run is performed under uniform conditions. Consistency is essential for replicating results, especially in research environments where validation is key. The system minimizes human error through automation of critical parameters. This reliability improves confidence in experimental data and reduces the need for repeat trials.

Ezilab’s Desktop Reactor EZL-DR10 ensures accurate temperature control, allowing researchers to run sensitive reactions without fluctuations that could alter outcomes. The system maintains stability even during extended operations, which is critical for experiments involving delicate compounds or biological materials. By preventing overheating or sudden changes, it preserves the integrity of the samples. This reliability makes it highly effective for temperature-dependent research.

The Desktop Reactor EZL-DR10 is well-suited for long-duration studies because of its stable performance and continuous monitoring features. It maintains consistent reaction conditions, which is crucial for experiments running over several hours or even days. Automated controls reduce the need for constant supervision, freeing researchers to focus on other tasks. This makes it an ideal choice for time-intensive studies where reliability is key.

The Desktop Reactor EZL-DR10 requires routine cleaning of its vessels and regular checks on seals and fittings to maintain efficiency. Our design minimizes dead volumes and residues, making cleaning straightforward and less time-consuming. Users should also periodically calibrate sensors to ensure measurement accuracy. With proper care, the reactor delivers consistent performance over years of use, making it a reliable long-term investment.