Micro Magnetic High Pressure Reactor NMHPR-101 is designed with a 50-liter capacity and a reactor vessel measuring Ø60 × 80. It features a lightweight and compact design for easy handling and convenience. Our unit offers a dual-mode system for flexible operation and continuous program control for precise and automated functioning. This reactor is ultra-high pressure resistant, ensuring safe and reliable performance under extreme conditions.
FAQ for Micro Magnetic High Pressure Reactor NMHPR-101
1: Does the Micro Magnetic High Pressure Reactor support online feeding and sampling under high pressure?
Yes, it includes a specialized design that enables secondary online feeding and online sampling during high temperature and high pressure conditions, enhancing experimental flexibility.
2: What steps should I take if the Micro Magnetic High Pressure Reactor fails to maintain stable pressure?
Ensure the safety valve settings are correctly adjusted and inspect all seals for integrity. Confirm that gas addition is functioning properly and verify that the pressure control systems are operating as intended.
3: How does the Micro Magnetic High Pressure Reactor NMHPR-101 control key parameters during reactions?
It integrates real-time temperature measurement, rotational speed monitoring, gas addition, and pressure stabilization systems to maintain consistent and reliable reaction environments.
4: What makes the Micro Magnetic High Pressure Reactor’s design suitable for high-pressure operations?
Its strong and explosion-proof mechanical design offers reliable protection and ensures safe operation during high-pressure synthesis and catalytic reactions, even under demanding conditions.
5: How does the programming capability of the Micro Magnetic High Pressure Reactor NMHPR-101 improve reaction control?
The reactor’s 31-segment programming allows precise control over temperature, pressure, and timing throughout the reaction process. This feature enables users to set complex reaction sequences that run continuously and automatically, minimizing manual intervention while ensuring consistent and reliable results.
