Introduction: HYA2010-G series ultra-high pressure capacity isotherm adsorption instrument uses hydrogen, methane, and carbon dioxide as the adsorption gas, and the static capacity method is used to obtain the high pressure adsorption isotherm. Features: G501 high pressure gas adsorption analyzer can be used for isothermal adsorption and isothermal pressure swing adsorption analysis of hydrogen, carbon dioxide, methane and other gases under medium pressure. And gives the temperature pressure curve Equipped with high-sensibility combustible gas leak monitoring and alarm system, imported high-precision combustible gas sensor and main air control valve, ensuring the safety of the instrument operation. The built-in anti-pollution system ensures trouble-free operation of the air circuit system when testing powder materials. Explosion-proof high-pressure solenoid valves and pressure sensors are imported products, providing high-precision analysis of the instrument to provide protection. The 10ML to 1L sample analysis chamber facilitates detailed analysis of various materials. Internet remote control makes the application of the instrument more extensive. Technical Parameters: Analytical Methods: Isothermal Pressure Swing Adsorption and Isobaric Variable Temperature Adsorption Analytical gases: hydrogen, methane, nitrogen, argon, oxygen, carbon monoxide, carbon dioxide Reactor: 10ML---1L optional Reactor connection: flanged Working pressure: 0-20 MPa Security System: High-precision flammable gas warning Pressure Measurement: Accuracy: ±0.3% Of Reading Software Control System: INTERNET Remote Control Temperature control range: 0 degrees Celsius ---- 500 degrees Celsius Heating rate: 1~20 °C/min Flow Control: Mass Flow Controller Report output: WORD, TXT, PDF and PNG Dimensions: D180 x W60 x H170 Power Supply: AC220V 1200W
Introduction: HYA2010-G series ultra-high pressure capacity isotherm adsorption instrument uses hydrogen, methane, and carbon dioxide as the adsorption gas, and the static capacity method is used to obtain the high pressure adsorption isotherm.
