Why the Electric Lift Glass Reactor is Essential for Modern Laboratories
Laboratory research demands highly controlled environments for chemical reactions, material synthesis, and pharmaceutical production. The Electric Lift Glass Reactor by EquilRxnLab provides an advanced, precision-controlled reaction system that enhances efficiency and safety.
With a 10L capacity, a temperature range from -80°C to 280°C, and a stainless-steel stirring shaft coated with fluorine materials, this reactor offers optimal thermal and chemical resistance. The digital frequency-controlled stirring mechanism allows for precise speed adjustments, while the electric lift system simplifies handling, reducing manual effort and improving operational efficiency.
Key Specifications and Features of the Electric Lift Glass Reactor
Understanding the technical details of the Electric Lift Glass Reactor is crucial for researchers selecting the right equipment. Below are its key specifications:
- Volume: 10 liters
- Jacket Volume: 3 liters
- Material: GG-17 Borosilicate Glass
- Temperature Range: -80°C to 280°C
- Temperature Resistance: -120°C to 300°C
- Body Angle: 150°
- Vacuum Level: 0.098 MPa
- Stirring Shaft Connection: Universal Joint
- Stirring Power: 90W
- Speed Control: Digital Frequency Control
- Number of Ports: 6 (customizable)
- Stirring Shaft Material: Stainless Steel Coated with Four Fluorine Materials
- Speed Range: 0-450 RPM
These features ensure maximum control, precision, and adaptability, making the reactor suitable for a wide range of applications.
Applications of the Electric Lift Glass Reactor
The Electric Lift Glass Reactor finds applications in various scientific and industrial fields. Some of the most common include:
Chemical Synthesis and Reaction Engineering
Controlled chemical synthesis relies on precise temperature regulation and efficient mixing. The borosilicate glass vessel provides excellent chemical resistance, while the digital frequency-controlled stirring system ensures uniform reactant distribution.
Pharmaceutical Development
Drug development requires reproducible reaction conditions. The Electric Lift Glass Reactor supports strict process control, ensuring that sensitive pharmaceutical reactions occur under stable temperature and vacuum conditions.
Nanomaterials and Polymer Research
The reactor’s precise temperature control and vacuum system make it ideal for nanomaterial synthesis and polymerization. Researchers can create uniform nanoparticles or complex polymer structures while maintaining consistent reaction conditions.
Academic and Industrial Laboratories
Both universities and industrial R&D centers benefit from the Electric Lift Glass Reactor due to its flexibility, ease of use, and precise control. It is widely employed in experimental studies, pilot-scale reactions, and product development.
Advantages of Using the Electric Lift Glass Reactor
The Electric Lift Glass Reactor provides significant advantages in laboratory settings. Below are some of its most notable benefits:
1. Electric Lift Mechanism for Easy Handling
Unlike traditional reactors, this model features an electric lift system, allowing researchers to easily raise and lower the reactor vessel without manual strain.
2. Digital Frequency-Controlled Stirring
The digital speed control system ensures that the stirring mechanism operates at precise speeds, maintaining consistent reaction conditions.
3. High-Precision Temperature Control
The borosilicate glass vessel and stainless-steel fluorine-coated stirring shaft provide excellent thermal stability, preventing temperature fluctuations.
4. Enhanced Safety and Efficiency
The electric lift feature reduces manual handling risks, while the vacuum system allows safe removal of volatile substances, improving overall laboratory safety.
5. Multi-Port Customization for Experimental Flexibility
With six customizable ports, users can integrate external sensors, reflux condensers, and additional instrumentation to adapt the reactor to specific research needs.
Best Practices for Operating the Electric Lift Glass Reactor
To maximize the performance and longevity of the Electric Lift Glass Reactor, researchers should follow these guidelines:
1. Ensure Proper Setup and Calibration
Before starting any reaction, ensure that the temperature control system, stirring mechanism, and vacuum connections are properly installed.
2. Use the Electric Lift System Safely
The electric lift should be engaged only when necessary to adjust the reactor height, preventing unnecessary wear on the system.
3. Adjust Stirring Speed Gradually
Using the digital frequency control, researchers should gradually increase or decrease stirring speed to prevent splashing and ensure even mixing.
4. Regular Cleaning and Maintenance
Proper maintenance of the borosilicate glass vessel, ports, and stirring shaft ensures a longer operational lifespan and consistent experimental accuracy.
Where to Get the Electric Lift Glass Reactor
For laboratories seeking a high-precision, electrically controlled glass reactor, the Electric Lift Glass Reactor by EquilRxnLab is available for purchase at:
Official Product Page
Additionally, researchers can explore more laboratory equipment and reactors in the EquilRxnLab product catalog.
Stay Connected with EquilRxnLab
For updates on advanced laboratory equipment and research solutions, follow EquilRxnLab on:
For inquiries about technical specifications, customization options, or purchasing, visit the EquilRxnLab Contact Page.
The Electric Lift Glass Reactor is a critical tool for laboratories requiring precision, efficiency, and ease of operation. With advanced digital control, customizable configurations, and a powerful electric lift system, it is an optimal solution for researchers in chemistry, pharmaceuticals, and materials science.
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