BSD - Model MAB -Multi-Component Gas Breakthrough Analyzer
The BSD-MAB Multi-Component Gas Breakthrough Analyzer is engineered for analyzing adsorption breakthrough curves across various experimental conditions, including different adsorbents, temperatures, pressures, bed thicknesses, gas concentrations, and flow rates. It features a built-in thermal conductivity detector or an external mass spectrometer for delivering precise, real-time data on adsorption dynamics and breakthrough behaviors of diverse gases and pollutants. This analyzer is vital for both research and industrial applications by providing critical insights into adsorption capacity, purification efficiency, and filter lifespan. It optimizes adsorbent performance, fixed bed reactor design, and multi-component adsorption processes, contributing to efficient and sustainable gas purification. The analyzer is well-suited for gas separation and purification research such as carbon capture analysis. Its specifications include multi-component gas preparation abilities, precise gas mixing with a multi-channel mass flow controller, and a dual-path design for detailed analysis of gas separation membrane permeability and efficiency.
The MAB breakthrough analyzer is designed to analyze adsorption breakthrough curves for multi-component gas across a wide range of experimental conditions, including varying adsorbents, temperatures, pressures, bed thicknesses, gas concentrations, and flow rates. Equipped with a built-in thermal conductivity detector or out connected Mass Spectrometer, the BSD-MAB delivers highly accurate, real-time data on adsorption dynamics and breakthrough behaviors for a diverse array of gases and pollutants. This makes it an essential tool for both research and industrial applications. The BSD-MAB delivers critical insights into adsorption capacity, purification efficiency, and filter lifespan, optimizing adsorbent performance, fixed bed reactor design, and multi-component adsorption processes for more efficient, sustainable gas purification. It is widely used in gas separation & purifaction research such as carbon capture analysis.
- Multi-component competitive adsorption, selective adsorption and displacement adsorption tests;
- Bi-component gas/ vapor adsorption breakthrough analysis with equipped thermal conductivity detector;
- Support all kinds of conditions: different adsorbent, test temp, pressure and layers of adsorbent, concentration and flow rate of gas;
- Multi-component gas/vapor competitive, selective adsorption and replacement desorption analysis with equipped chromatography or mass spectrometry;
- Support adsoprtion separation of pollutant gas (e.g. TVOC, SO2, NH3 and etc) at ppm-level concentration;
- Support adsorption performance analysis on micro pollutant and relevant parameters analysis of adsorbent in room, vehicle, indoor environment, etc
- Scaled lab level gas separation process.
- Design and application of adsorption tower.
- Selective adsorption in separation technics.
- Separation coefficient (S) analysis.
- PSA analysis
- TSA analysis
- PSA Hydrogen purification analysis.
- Removal of mirco impurity in hydrogen gas with PSA method.
- Multi-component Competitive Adsorption
- Adsorption kinetics analysis of adsorbent
- Co-adsorption and replacement desorption analysis
- Dynamic and cyclic adsorption & desorption analysis
- Adsorption bonding energy comparison with TPD
- Activation Temperature analysis (TPD)
- Membrane for gas separation analysis
- MFC Inlets : 4-8 Gas Inlets +2-3 vapor
- Vapor Generation : 2-3 inlets P/Pₒ 0.1%-100%, ±1%
- PSA Options : 0-1Mpa/ 3Mpa/ 6Mpa/ 10Mpa
- Various Column Options : 1ml, 2ml, 8ml, 100ml, kilogram level
- Activation : Purging or Vacuum
- Outlet Quantify : Concentration, Flowrate and Adsorption Amount
- Low flow detection : MS to detect 0.2SCCM
- Compatibility : TCD/ Mass Spectrometer/ Infrared
- Thermostatic Pipeline : Air bath thermostat system to 50 °C ±0.1 °C