| Capacity |
10L |
| Jacket capacity |
3L |
| Temperature range |
-80°C to +250°C |
| Temperature accuracy |
±1°C |
| Vacuum level |
0.098MPa |
| Stirring speed |
120rpm |
| Stirring port |
Φ50mm flange mouth |
| Condensation reflux |
DN25 ball grinding mouth |
| Constant pressure funnel port |
DN25 ball grinding mouth |
| Pressure relief port |
35mm flange mouth |
| Temperature measuring port |
35mm flange mouth |
| Solid closing opening |
Φ80mm flange mouth, inner diameter 60mm |
| Condensation area |
0.4m2 |
| Mix paddles |
Φ15×700H (mm) leafing 160mm |
| Condenser |
Φ100×420H (mm), lower Φ50mm flange mouth |
| Return elbow |
Lower Φ50mm flange mouth, left 50mm ball grinding mouth |
| Constant pressure funnel |
1L |
| Relief value |
35mm standard plug valve bleed nozzle (pagoda point) outer diameter 12mm |
| Inlet and outlet circulation ports |
Φ35mm flange mouth is equipped with a 6-point buffer device, an external interface with 6 points of filament mouth |
| Discharge opening |
Φ80mm flange, Φ33mm discharge hole |
| Vacuum pumping nozzle |
Pagoda joint outer diameter 12mm |
| Inlet and outlet nozzle of the condenser oil |
Pagoda joint outer diameter 12mm |
| Host lifting stroke |
320mm |
| Rotation of the kettle body |
360° |
| Kettle inner diameter |
230mm |
| Kettle outer diameter |
290mm |
| Kettle inner length |
354mm |
| Stirring motor power consumption |
120W |
| Lifting motor power consumption |
120W |
| Overall power consumption |
240W |
| Power supply |
AC220V/50Hz |
| Dimension |
1100×860×2100mm |
| Packaging dimension |
1510×1150×650mm |
| Net weight |
130kg |
| Packaging weight |
190kg |
FAQ for Jacketed Glass Reactor NJGR-300
1: What is the purpose of the 3-liter jacket?
The 3-liter jacket allows circulation of heating or cooling fluid, ensuring precise thermal control during reactions. This feature helps maintain consistent internal conditions for sensitive or temperature-dependent processes.
2: Is visual monitoring possible during operation?
Yes, the Jacketed Glass Reactor is made of high-transparency borosilicate glass, allowing clear visual access to the reaction. This makes it easy to observe color changes, phase separations, and other visual cues without interrupting the process.
3: Is the Jacketed Glass Reactor NJGR-300 easy to discharge and clean?
Yes, the kettle body rotates 360° and has a large discharge opening, making product removal simple. The lifting mechanism also allows convenient access for cleaning and maintenance.
4: How precise is the temperature control?
The Jacketed Glass Reactor offers temperature accuracy within ±1°C. This level of precision is especially important when working with sensitive reactions that require tight thermal regulation.
5: How often should the Jacketed Glass Reactor NJGR-300 be cleaned?
The Jacketed Glass Reactor should be cleaned after each use to prevent residue buildup and contamination. Regular cleaning also helps maintain the clarity of the glass and ensures consistent performance over time.
6: How does temperature regulation work in this Jacketed Glass Reactor?
Temperature control is achieved by circulating heating or cooling fluids through the jacket surrounding the reactor vessel. This allows for consistent and even heating or cooling during reactions, which is essential for sensitive chemical processes. The system helps prevent overheating or undercooling, improving reaction reliability.
7: Is cleaning the Jacketed Glass Reactor simple?
The smooth borosilicate glass surface makes cleaning easy and prevents chemical residues from sticking. Its corrosion resistance means fewer worries about damage during maintenance. Regular cleaning helps maintain optimal performance and safety.
8: How safe is the Jacketed Glass Reactor for daily use?
Constructed from tempered borosilicate glass, the reactor is resistant to breakage and thermal shock, ensuring safety during operation. The transparent design allows continuous visual monitoring, helping detect any issues early. Overall, it is designed to offer both reliability and user safety.
9: Can the Jacketed Glass Reactor handle aggressive chemicals safely?
Yes, the borosilicate glass is highly resistant to most acids, bases, and solvents, making it suitable for handling aggressive chemicals. This chemical resistance helps prevent contamination and maintains the purity of your reactions. It ensures safe use with a wide range of substances.
