Unlocking High-Performance Synthesis Through a High Pressure Laboratory Reactor
The advancement of experimental chemistry and material science depends increasingly on systems capable of operating under extreme conditions. The high pressure laboratory reactor from Equilrxnlab represents a significant step forward in enabling safe, efficient, and reproducible synthesis at elevated pressures and temperatures. As research protocols demand finer control and scalability, the design of laboratory reactors must evolve to match these requirements with precision engineering and operational flexibility.
Equilrxnlab’s high pressure laboratory reactor integrates high-quality materials, modular heating systems, and mechanical stirring mechanisms to create a comprehensive solution for controlled reactions. This equipment facilitates advanced synthesis in academic, industrial, and governmental research settings where reliability and adaptability are paramount.
Engineered for Performance and Safety
Designed with both stainless steel 304 and 316, the high pressure laboratory reactor ensures long-term chemical compatibility and mechanical durability. The material selection is critical for maintaining structural stability and chemical resistance under aggressive conditions. Whether used in catalytic hydrogenation, polymerization, or other high-demand reactions, the reactor body withstands pressures up to 22 MPa and temperatures ranging from 0°C to 350°C, ensuring safety without compromising performance.
The system includes a flange-type connection for reliable sealing and pressure containment, while the digital screen display provides real-time monitoring and control over internal conditions. This combination of features supports both novice and experienced users in managing complex procedures with clarity and assurance.
Flexible Volume Range for Diverse Experimental Needs
Equilrxnlab’s reactor is available in an array of working volumes to support different scales of operation, including:
- 0.05L
- 0.1L
- 0.25L
- 0.5L
- 1L
- 2L
- 3L
- 5L
- 10L
- 20L
- 30L
This breadth of options allows researchers to scale their experiments precisely, optimizing for cost, safety, and operational efficiency. Whether synthesizing micro-quantities of new compounds or running pilot-scale reactions, users can select a reactor size that aligns with their process objectives. For further product details, explore the Equilrxnlab product catalog.
Advanced Thermal and Mechanical Control
Heating is managed by a modular electric system, which offers consistent and rapid thermal distribution. The heating power varies with reactor volume, ranging from 0.6 kW to 10 kW, ensuring sufficient thermal input without energy waste.
| Volume | Heating Power |
|---|---|
| 0.05L–0.1L | 0.6 kW |
| 0.25L | 0.8 kW |
| 0.5L–1L | 1.5 kW |
| 2L | 2.0 kW |
| 3L | 2.5 kW |
| 5L | 4.0 kW |
| 10L | 7.0 kW |
| 20L–30L | 10.0 kW |
In parallel, mechanical stirring is implemented to ensure uniform reactant distribution and consistent reaction kinetics. The adjustable stirring speed ranges from 50 to 1000 rpm, offering control over mixing intensity depending on the viscosity and reactivity of the mixture. This feature is critical in promoting homogeneous reactions, especially under high-pressure conditions where diffusion rates can be limited.
Adaptability Across Multiple Research Applications
The high pressure laboratory reactor supports a wide spectrum of laboratory applications:
- Catalytic processes: including hydrogenation and oxidation under elevated pressure.
- Material synthesis: such as metal-organic frameworks (MOFs), nanoparticles, and polymers.
- Supercritical fluid extraction: where control over both pressure and temperature is essential.
- Petrochemical studies: involving high-temperature decomposition or cracking mechanisms.
Its operational versatility and robust construction make it an ideal tool in chemical engineering, pharmaceutical development, materials science, and environmental research. For direct support or inquiries, reach out via Equilrxnlab’s contact form.
Seamless Monitoring and Operational Control
Ease of use is enhanced by a digital control interface, providing an intuitive method for setting and adjusting parameters in real-time. Temperature, pressure, and stirring speed can be independently monitored, allowing researchers to fine-tune conditions during sensitive stages of the reaction.
The system’s feedback mechanisms ensure that deviations are promptly detected, reducing the likelihood of failed reactions or equipment stress. The ability to adapt in-process adds significant value for iterative experiments and parametric studies.
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The high pressure laboratory reactor by Equilrxnlab exemplifies the integration of advanced materials, thermal technology, and mechanical design in modern laboratory equipment. By offering precise environmental control across a variety of reaction conditions and volume requirements, this reactor supports the development of new scientific knowledge and industrial solutions with consistency and safety.
