The Syrris 200 Bar Gas Pressure Control Module is designed to automate gas dosing and pressure regulation in high-pressure reactor systems such as the Atlas Sodium Pressure Reactor. Supporting pressures up to 200 bar (100 bar with hydrogen), it offers precise control over reactor pressure through inlet and outlet valves made from 316L stainless steel. Compatible with Syrris Atlas Base and PC software, this module enhances safety, accuracy, and ease of operation in demanding pressure reactions.
Product Features
- Automatic control of gas dosing to maintain reactor pressure within set limits
- Three operation modes: Set Min/Max Pressure, Vent, and Purge
- Robust 316L stainless steel valves for chemical and pressure resistance
- Compatible with Atlas Base twist and click knob control or PC software control
- Designed for use with Syrris Atlas 200 bar pressure reactors and modular pressure systems
- Supports integration with Atlas Gas Selection Module for multi-gas control
- Easy installation with no tools required
- Ideal upgrade from manual pressure control for increased automation and precision
Benefits
- Reliable and precise pressure maintenance improves reaction safety and reproducibility
- Reduces manual intervention and risk of pressure fluctuations during sensitive reactions
- Compatible with hydrogen applications up to 100 bar for versatile use
- Modular design allows easy integration into existing Syrris pressure reactor systems
- Automated control modes simplify complex reaction protocols and enhance process control
Why Choose The Syrris 200 Bar Gas Pressure Control Module?
This module is the perfect solution for laboratories requiring automated, reliable, and safe pressure control in high-pressure chemical reactions. Designed to work seamlessly with Syrris Atlas pressure systems, it provides flexible control options and integration with PC software for data logging and advanced control. Whether upgrading from manual systems or building fully automated reactors, this module delivers robust performance and enhances reaction workflow.
