HPE-6 parallel concentration evaporator Introduction: The parallel concentration evaporator is under mild conditions. The basic principle is to quickly evaporate or quantify multiple samples by simultaneous heating/decompression/vortex oscillation, effectively avoiding the damage of high temperature to certain targets. No need for operator supervision, high degree of automation.
Features:
1. Batch processing samples, single-concentration of 6 samples, significantly improve the efficiency of the experiment;
2. Individual samples are sealed independently to strictly eliminate cross-contamination;
3. The water bath is transparent, and the concentrated state can be observed at any time for convenient operation;
4. Optional concentration of the sample to 0.5ml or 1ml without operator care;
5. Gradient temperature control system, with a gradient pressure control system, no need for operators to take care of, more complex samples are processed;
6. The instrument is small in size and can be placed in a fume hood. The solvent recovery rate is high, reducing environmental pollution and injury to the experimenter;
7. Concentrate the sample by simultaneous heating/vortexing/vacuuming, the water bath is uniform, the concentration is fast and the bump is effectively prevented.
Technical Parameters:
Batch processing sample number: 6 digits, 200ml standard test tube or 100ml standard chicken heart bottle to meet different experimental needs
Centrifugal rate: 5mm
Speed: 0-600rpm
Heating temperature range: room temperature +5 ° C ~ 100 ° C
Temperature control accuracy: ±0.5 °C
Heating method: PTC water bath heating
Upper cover heating function: speed up the concentration, prevent condensation from recirculating, temperature setting (°C): 50, 55, 60, 65, 70
Host gradient temperature control, 5 programs can be set
Test tube seal: single test tube is sealed independently, cross-contamination
HPE-6 parallel concentration evaporator Introduction: The parallel concentration evaporator is under mild conditions. The basic principle is to quickly evaporate or quantify multiple samples by simultaneous heating/decompression/vortex oscillation, effectively avoiding the damage of high temperature to certain targets. No need for operator supervision, high degree of automation.
