Mechanically Stirred High Pressure Reactor NSHPR-100 is designed with a 25-litre capacity and ensures precise temperature display precision of ±1°C. It is equipped with gas inlet and outlet systems for controlled gas flow. This unit includes an overpressure alarm for reliable detection and safety. It supports continuous program control for automated operation. Our reactor features a digital display for real-time temperature and pressure monitoring.
FAQ for Mechanically Stirred High Pressure Reactor NSHPR-100
1: Why does the Mechanically Stirred High Pressure Reactor NSHPR-100 use magnetic coupling for stirring?
The Mechanically Stirred High Pressure Reactor uses magnetic coupling to provide a sealed, leak-free connection between the motor and the stirrer, ensuring safe operation under high-pressure conditions without leakage.
2: How does the Mechanically Stirred High Pressure Reactor handle high-viscosity materials?
Its strong top-mounted magnetic stirring mechanism ensures powerful and even mixing throughout the reactor vessel. This consistent stirring is especially important for reactions involving viscous materials, as it helps maintain uniform temperature and reactant distribution, leading to more efficient and reliable reaction outcomes.
3: Does the Mechanically Stirred High Pressure Reactor NSHPR-100 allow real-time monitoring of temperature and pressure?
Yes, the reactor is equipped with online temperature and pressure sensors that provide continuous real-time data. This feature enables precise control and monitoring of the reaction conditions, helping to ensure safety and improve the accuracy and reproducibility of experimental results.
4: What safety measures does the Mechanically Stirred High Pressure Reactor include to prevent overpressure risks?
The reactor is fitted with an intelligent overpressure relief valve system that provides both an alarm and automatic pressure release. This safety feature protects the reactor from pressure buildup beyond safe limits, helping to prevent accidents and equipment damage.
5: What should I do if the stirring motor stops unexpectedly during operation?
Check the power supply and connections to ensure there is no interruption. Inspect the magnetic coupling for misalignment or damage. Also, verify that the motor is not overloaded and that the temperature is within the operating range to prevent overheating.
