Overview
LC-DCY-12GP dry Nitrogen blowing instrument quickly, continuously and controllably blows nitrogen to the surface of the heating sample, combined with the heating temperature setting, to achieve rapid condensation of a large number of samples. The instrument adopts an aluminum block bath, which has good and uniform heat transfer, which is conducive to rapid heating and temperature control. The blowpipes are independent of each other to avoid cross-contamination, and the air needle channels on the valve assembly can be combined or used alone.
Features
1. LCD liquid crystal display, setting data is displayed simultaneously with the current data, making it clear and intuitive.
2. With multi-point running function, multiple programs can be preset, and each program can be turned on or off independently.
3. Automatic Air-Cooled for rapid cooling.
4. When the target temperature is reached, the operation is completed, or a malfunction occurs, it has a buzzer alarm function.
5. The aluminum module with good thermal conductivity is used for heating, which is conducive to rapid heating and temperature control.
6. Adopt intelligent algorithm, and have temperature deviation Adjustment, effectively reduce the experimental error.
7. Automatic fault detection to ensure the safety of the instrument during operation.
8. The power failure will automatically resume. After a sudden power failure during operation, the incoming call can resume the program operation before the power failure.
9. It is equipped with multiple heat sinks and built-in over-temperature protection devices to effectively prevent the instrument from overheating.
10. Independent valve and independent blowpipe design make the nitrogen blowing target clear, saving nitrogen and less prone to cross-contamination.
11. The handwheel adjusts the height of the distribution chamber for easy sampling.
Principle
The Working Principle of this instrument is to rapidly, continuously and controllably blow nitrogen to the surface of the heating sample, and to achieve rapid condensation of a large number of samples by setting the heating temperature that matches the evaporation rate and boiling point of the condensed solvent.
