Overview
Double-decked Glass Reaction Kettle LC-S212-100L uses the principle of thermostatic heating and constant speed stirring to uniformly stir the raw materials under vacuum negative pressure conditions, so that the materials can fully react, evaporate, separate, and recover the solvent in the kettle. All the parts in contact with the materials are made of high-temperature and corrosion-resistant borosilicate Glass and polytetrafluoroethylene materials, which are suitable for the analysis of the reaction of biological products that are easily denatured, and are not easy to chemically react with various materials.
Features
1. Reaction Kettle is made of high borosilicate Glass (GG-17 material), which has excellent physical and chemical performance, and the bottle is transparent and visible.
2. The main body is made of stainless steel frame + aluminum alloy material, which is beautiful, strong and corrosion resistant.
3. Stainless steel stirringrod wrapped PTFE, suitable for a variety of solvent stirring, no pollution and corrosion resistance.
4. Motor mixing, smooth operation, high torque, no spark, long life.
5. PTFE components and fluororubber sealing, proprietary technology, can ensure good Vacuum Level and long service life.
6. This product has a governor, Rotation speed can be set by the speed knob, intuitive and convenient.
7. This product has a vacuum display function, and can choose a better working Vacuum Level for low boiling point materials.
8. Equipped with a PTFE oblique discharge valve, the recovery of the solvent is very fast.
9. Low-speed booster motor, electronic stepless speed regulation, fine-tuned by knob, double-display speed box can digitally display Rotation speed and material temperature in the kettle, stable performance, clear display data, simple and easy operation (10L and above models).
10. The bottom of the Reaction Kettle frame is equipped with a universal wheel with brakes, which can be moved as a whole and is easy to operate (10L and above models).
Principle
Under vacuum negative pressure conditions, the Reaction Kettle works through a thermostatic heating system and a constant speed stirring system to uniformly stir the materials in the kettle to achieve full reaction, evaporation, separation and solvent recovery of the materials.
Applications
Reactions suitable for the analysis of biological products susceptible to denaturation
Steps
Move the device to a suitable position and secure it with a universal wheel with brakes on the bottom (models 10L and above).
2. Connect the necessary components such as condenser, constant pressure funnel, decompression device and temperature sensor through the interface on the kettle cover.
3. Connect the interlayer circulation pipeline (low in and high in).
4. Turn on the power supply, set the required stirring Rotation speed through the speed control knob, and observe the Rotation speed and material temperature (10L and above models) through the digital display.
5. According to the material characteristics, adjust to the required working Vacuum Level through the vacuum system and observe through the vacuum table.
6. Start the stirring and heating system to start the reaction process.
7. After the reaction is completed, quick discharge and solvent recovery are carried out through the PTFE oblique discharge valve.
Notice
• Reaction Kettle body material is high borosilicate Glass, operation and movement should pay attention to avoid violent collision.
• Ensure all sealing components (Teflon and fluororubber) are installed correctly to maintain good Vacuum Levels.
• Power supply voltage/Frequency 220V/50Hz before use.
• During operation, please note that the reaction Temperature range of the kettle body is -80~ 250 ℃, do not use beyond the range.
• Note that the maximum Vacuum Level is 0.098MPa, do not exceed this limit.
• Speed range is 0~ 450rpm, please adjust within this range.
Net weight 95KG, please pay attention to safety when moving and installing.
• For digital display, speed regulation and movement functions of 10L and above models, please refer to the corresponding model instructions for use.
