Exploring the Functional Scope and System Capabilities of Equilrxnlab’s Vacuum Single Glass Reactor
In contemporary scientific laboratories, the Vacuum Single Glass Reactor has established itself as an essential instrument for organic synthesis, distillation, and thermal reactions. The demand for operational precision, safety, and adaptability has pushed reactor design to new heights. One standout in this evolution is the 10L Single Layer Glass Reactor by Equilrxnlab, a system engineered to support controlled reactions in vacuum conditions with stable temperature regulation.
This unit is widely adopted for small-scale experimental processes requiring transparency, resistance to thermal shock, and reliability. As a result, the Vacuum Single Glass Reactor is widely used in pharmaceutical, chemical, and academic environments where reproducibility and visual monitoring are crucial.
Materials and Capacity Considerations in Reactor Selection
Equilrxnlab’s 10L reactor is constructed from borosilicate glass, selected for its high thermal resistance and chemical stability. This material ensures excellent visibility and tolerance to temperature fluctuations, making it ideal for laboratory reactions. The 10L capacity provides sufficient volume for both batch synthesis and scaled pilot operations, balancing the need for sample throughput and control.
To accommodate various experimental protocols, this Vacuum Single Glass Reactor is supported by optional components such as a cooling coil, enhancing flexibility for both endothermic and exothermic reactions. The structure integrates a 2000ml pressure funnel and a 125mm solid feed port, facilitating reagent addition and sample manipulation without compromising the internal environment.
Explore the complete product catalog from Equilrxnlab for additional reactor configurations and system integrations.
High-Precision Thermal and Mechanical Control
At the heart of this system is its precise temperature regulation, ranging from ambient to 200°C with ±1°C accuracy. This level of control ensures reaction consistency and safety, especially when managing temperature-sensitive compounds or multi-stage reaction protocols.
The digital temperature controller enhances usability by providing real-time monitoring and programmable settings, while a 3KW heating element ensures rapid and uniform heating. Equally important is the stirring capability—managed by a 120W motor supporting 0–1350 rpm. The agitation system utilizes a fluorine-coated stainless steel blade, ideal for corrosive environments or heterogeneous mixtures, ensuring uniform distribution of thermal energy and reactants.
For detailed specifications and inquiry, you may contact Equilrxnlab directly.
Operational Advantages of Vacuum Conditions
One defining feature of the Vacuum Single Glass Reactor is its capability to perform reactions under reduced pressure. By creating a vacuum environment, the reactor minimizes oxidation risks, enables lower boiling point distillation, and supports delicate compound handling.
This function is especially valuable in organic synthesis and purification processes, where thermal degradation of sensitive molecules is a concern. The vacuum setup can be integrated with rotary vane pumps or diaphragm vacuum systems, depending on the chemical process and desired vacuum level.
By visiting Equilrxnlab on YouTube, researchers and technicians can access operation tutorials and demonstration videos on using reactors in vacuum environments effectively.
Agitator and Feeding Mechanism Flexibility
Efficient mixing plays a pivotal role in reactor performance. The Vacuum Single Glass Reactor offers customizable agitator blades, which, combined with high stirring speeds, allow for fine-tuned control of mass and heat transfer rates. This is especially relevant in multi-phase reactions and crystallization processes.
The solid feed port and pressure funnel enable continuous and closed-system additions, preserving internal pressure conditions. Such a design facilitates the staged addition of catalysts, reagents, or pH modifiers during the course of a reaction.
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Applications in Modern Research and Industry
The Vacuum Single Glass Reactor serves a range of disciplines:
- Organic synthesis under inert atmosphere
- Low-pressure distillation
- Crystallization and recrystallization studies
- Solvent recovery and extraction
- Polymer development and thermal decomposition
The visibility provided by the borosilicate glass design is invaluable during colorimetric reaction monitoring, precipitation control, or during processes requiring visual endpoint detection.
As laboratories shift toward modular and flexible research infrastructure, instruments like Equilrxnlab’s 10L reactor provide the adaptability and reliability essential for a dynamic work environment.
The Vacuum Single Glass Reactor from Equilrxnlab integrates material resilience, thermal accuracy, and vacuum support into a cohesive design. Its compatibility with advanced laboratory techniques makes it a versatile solution for experimental and semi-industrial use.
