Gravimetric sorption is a popular analytical method utilized for the determination of the rate of interaction between a gas and an either solid or liquid material. The gravimetric sorption technique works with a sample’s weight being continuously measured on a microbalance as gas pressure is modulated under a constant temperature. Sorption update is established based on the measured changes of weight.
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| Company | Hiden Isochema | Hiden Isochema | Hiden Isochema | Hiden Isochema |
| Item | XEMIS-001 Gravimetric Sorption Analyzer | IGA-002 Vapor Sorption Analyzer | IMI-FLOW Manometric Gas Sorption Analyzer | XEMIS-100 Gravimetric Sorption Analyzer |
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| Catalog Number | XEMIS-001 | IGA-002 | IMI-FLOW | XEMIS-100 |
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| Temperature Range | 77 K to 500 °C | 77 K to 1000 °C | 77 K to 773 K | 77 K to 500 °C |
| Pressure Range | 170 bar (standard) 200 bar (optional) | 10 bar (standard) 20 bar (optional) | 100 bar (standard) 200 bar (optional) | 170 bar (standard) 200 bar (optional) |
| Description | The XEMIS series are high accuracy gravimetric sorption analyzers operating to 200 bar. Changes in sample mass are measured as a function of applied temperature and pressure to determine isotherms, isobars and sorption kinetics. Designed for operation with a full range of gas and vapor species The XEMIS series are high accuracy gravimetric sorption analyzers operating to 200 bar. Changes in sample mass are measured as a function of applied temperature and pressure to determine isotherms, isobars and sorption kinetics. Designed for operation with a full range of gas and vapor species including corrosives and flammables, the XEMIS series features active pressure regulation from 10-2 mbar: a controllable pressure range covering 7 orders of magnitude.
Features:
- Isotherm, isobar and high pressure TGA measurements in a single automated analyzer
- Compatible with flammable, corrosive and toxic gases and vapors
- Symmetric geometry, with ultra-low total system buoyancy for high accuracy measurements at high pressures
- Measurements at temperatures from 77 K to 500 °C
- Fast and accurate analysis of equilibria and kinetics using the IGA method
- Full automation and advanced programmability
... Read More | The IGA-002 is a high resolution vapor sorption analyzer for precisely characterizing vapor-solid interactions. Compatible with an extensive range of vapors, the IGA-002 also offers the full gas sorption capability of the IGA-001, measuring changes in sample mass as a function of temperature and The IGA-002 is a high resolution vapor sorption analyzer for precisely characterizing vapor-solid interactions. Compatible with an extensive range of vapors, the IGA-002 also offers the full gas sorption capability of the IGA-001, measuring changes in sample mass as a function of temperature and pressure. The unique IGA method analyzes real time gravimetric data to determine kinetic parameters and simultaneously predict sorption equilibrium.
Features:
- Suitable for use with a wide range of gases, vapors, materials and methods
- Active vapor pressure regulation from 10-3 mbar
- Built-in anti-condensation protection to 50 °C
- Sample temperature stability and accuracy of ± 0.02 °C
- Unrivalled long term stability and continuous weight measurement
- Advanced kinetic analysis for sorption rate and diffusion coefficient determination
... Read More | The IMI-FLOW combines the manometric gas sorption capabilities of all IMI analyzers with flowing mode operation and integrated mass spectrometry. Manometric mode offers high accuracy isotherm determination to 200 bar, while the flowing mode provides complete control of pressure, composition and flowThe IMI-FLOW combines the manometric gas sorption capabilities of all IMI analyzers with flowing mode operation and integrated mass spectrometry. Manometric mode offers high accuracy isotherm determination to 200 bar, while the flowing mode provides complete control of pressure, composition and flow rate. Integrated mass spectrometry allows downstream gas analysis for TPD and advanced methods.
Features:
- Sub-micromole gas sorption resolution
- High pressure operation from 77 K to 773 K
- Automatic switching between manometric and flowing mode operation
- Versatile control from standard methods to complete user-defined experiments
- Full integration of mass spectrometers from Hiden’s quadrupole range
... Read More | The XEMIS series are high accuracy gravimetric sorption analyzers operating to 200 bar. Changes in sample mass are measured as a function of applied temperature and pressure to determine isotherms, isobars and sorption kinetics. Designed for operation with a full range of gas and vapor species The XEMIS series are high accuracy gravimetric sorption analyzers operating to 200 bar. Changes in sample mass are measured as a function of applied temperature and pressure to determine isotherms, isobars and sorption kinetics. Designed for operation with a full range of gas and vapor species including corrosives and flammables, the XEMIS series features active pressure regulation from 10-2 mbar: a controllable pressure range covering 7 orders of magnitude.
Features:
- Isotherm, isobar and high pressure TGA measurements in a single automated analyzer
- Compatible with flammable, corrosive and toxic gases and vapors
- Symmetric geometry, with ultra-low total system buoyancy for high accuracy measurements at high pressures
- Measurements at temperatures from 77 K to 500 °C
- Fast and accurate analysis of equilibria and kinetics using the IGA method
- Full automation and advanced programmability
... Read More |
| Applications | Carbon capture and storage, Hydrogen and natural gas storage, Gas solubility in ionic liquids, Nanoporous material characterization, Gas sorption on geological materials | Moisture and organic vapor sorption, Diffusion coefficient determination, Thermodynamic and kinetic studies, Gas sorption capacity determination | Gas storage, Gas separation and purification, Thermodynamic and kinetic studies, Nanoporous materials (carbons, zeolites, MOFs and polymers) | Energy gas storage, High pressure TGA, Polymer membrane characterization |
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