Double Layer Glass Reactor FM-DGR-A101 features a durable 2-liter borosilicate vessel paired with a 250 ml jacket for efficient thermal regulation. It is engineered for chemical synthesis, distillation, and advanced material studies. The reactor operates seamlessly under both atmospheric and vacuum conditions. It comes with a compact footprint, a reliable stirring mechanism, and a broad working temperature range. This makes it an ideal solution for precise, small-scale laboratory research and development.
$2,822.00
| Glass Vessel Volume | 2 L |
| Jacket Volume | 250 ml |
| Stirring Motor Power | 60 W |
| Stirring Speed | 50 to 1100 rpm (adjustable) |
| Display Screen | Display stirring speed, time, temperature |
| Timer Range | 0 to 99 h 59 min |
| Temperature Range | -80°C to +250°C |
| Temperature Accuracy | ±1°C |
| Vessel Lid Diameter | 150 mm |
| Vacuum Degree | ≤ 0.098 MPa |
| Power Supply | 220V/50Hz |
| Dimensions (W×D×H) | 450 × 450 × 1120 mm |
| Weight | 18.5 kg |
1: Can the jacket be integrated with both heating and cooling circulators for dynamic temperature control?
Yes. The 250 ml jacket is designed to interface with external heating and cooling circulators, enabling dynamic thermal control. This ensures precise temperature regulation across a broad operational range, supporting both endothermic and exothermic reactions.
2: Which type of vacuum pump is recommended for achieving optimal reactor performance?
An oil-free diaphragm vacuum pump is recommended. It delivers stable vacuum levels while eliminating the risk of oil back streaming or sample contamination, making it ideal for sensitive chemical and pharmaceutical processes.
3: How is mechanical stability ensured during prolonged stirring at variable speeds?
The reactor incorporates a reinforced support frame and a precision engineered stirring assembly. This design minimizes vibration, maintains alignment, and ensures consistent mixing efficiency even during extended operation at variable stirring speeds.
Double layer Glass Reactors are equipped with a borosilicate glass vessel designed for precise laboratory scale synthesis, distillation, and concentration. Their double layer jacketed structure allows efficient heating or cooling by circulating liquid, ensuring stable temperature control across a wide range of reactions. Their system supports smooth stirring under vacuum or atmospheric conditions, making them suitable for diverse chemical and pharmaceutical processes.