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 | IGA-003 Dynamic Gas Sorption Analyzer | IGA-1000 Advanced Gravimetric Sorption Analyzer | IMI-HTP Hydrogen Storage Analyzer | IMI-PSI High Pressure Manometric Sorption Analyzer |
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| Catalog Number | IGA-003 | IGA-100 | IMI-HT | IMI-PSI |
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| Temperature Range | 77 K to 1000 °C | 77 K to 1000 °C | 77 K to 500 °C | 77 K to 773 K |
| Pressure Range | 10 bar (standard) 20 bar (optional) | 10 bar (standard) 20 bar (optional) | 100 bar (standard) 200 bar (optional) | 100 bar (standard) 200 bar (optional) |
| Description | The IGA-003 is a dynamic gas sorption analyzer incorporating multiple controllable inlets with combined pressure and flow control, and integrated mass spectrometry. Incorporating an ultra-sensitive microbalance, the IGA-003 measures changes in sample mass as a function of temperature, pressure and The IGA-003 is a dynamic gas sorption analyzer incorporating multiple controllable inlets with combined pressure and flow control, and integrated mass spectrometry. Incorporating an ultra-sensitive microbalance, the IGA-003 measures changes in sample mass as a function of temperature, pressure and gas composition. The unique IGA method analyzes real time gravimetric data to determine kinetic parameters and simultaneously predict sorption equilibrium.
Features:
- Fully programmable with combined control of pressure, flow and gas composition
- Optional integrated vapor generator module
- Sample temperatures from 77 K to 1000 °C
- Fully programmable for advanced method development
- Fully integrated quadrupole mass spectrometry option for evolved gas analysis (EGA)
... Read More | The IGA-100 is an advanced gravimetric sorption analyzer, powerfully combining high resolution vapor, mixed gas and TGA-MS measurements. A multiple inlet flow control system allows mixed gas experiments with combined pressure, flow and composition control, while anti-condensation protection and The IGA-100 is an advanced gravimetric sorption analyzer, powerfully combining high resolution vapor, mixed gas and TGA-MS measurements. A multiple inlet flow control system allows mixed gas experiments with combined pressure, flow and composition control, while anti-condensation protection and active pressure regulation enable high resolution vapor sorption-desorption measurements.
Features:
- Fully programmable with combined control of pressure, flow and gas composition
- Built-in anti-condensation protection to 50 °C for pure vapor sorption
- Optional integrated vapor generator module for dynamic vapor sorption (DVS)
- Sample temperatures from 77 K to 1000 °C
- Fully integrated quadrupole mass spectrometry option for evolved gas analysis (EGA)
- Unique combination of vapor sorption options to include DVS measurements with pressure and vacuum control
... Read More | The IMI-HTP is designed to characterize hydrogen storage materials using Sieverts method up to pressures of 200 bar. High accuracy is ensured by a minimized dead volume, all-metal construction, high thermal stability and accurate pressure measurement. Every IMI-HTP is specified to meet the The IMI-HTP is designed to characterize hydrogen storage materials using Sieverts method up to pressures of 200 bar. High accuracy is ensured by a minimized dead volume, all-metal construction, high thermal stability and accurate pressure measurement. Every IMI-HTP is specified to meet the challenging demands of high pressure H2 operation, with permanent overpressure protection to satisfy the most rigorous safety requirements.
Features:
- Sub-microgram hydrogen sorption resolution
- High pressure operation from ambient temperature to 773 K
- Liquid N2 coolant options for low temperature physisorption
- Fully upgradable modular design
- Versatile instrument control, with fully programmable software
- Also operates with a range of other gases (N2, CH4, CO2, O2,…)
... Read More | The IMI-PSI is designed to investigate gas sorption by nanoporous materials, from sub-ambient pressures to 200 bar. Its inherent flexibility allows both BET surface area analysis and gas storage studies to be performed using only one instrument, while an optimized design and superior build quality The IMI-PSI is designed to investigate gas sorption by nanoporous materials, from sub-ambient pressures to 200 bar. Its inherent flexibility allows both BET surface area analysis and gas storage studies to be performed using only one instrument, while an optimized design and superior build quality ensures high accuracy. Full automation enables pre-programmed gas switching and sample pretreatment routines to be set for ease-of-use.
Features:
- Sub-micromole gas sorption resolution
- 200 bar operation, with 773 K degassing capability
- Liquid coolant thermostatting, including LN2 for BET analysis
- Enhanced low pressure measurement accuracy
- Fully upgradable modular design
... Read More |
| Applications | Energy storage, Temperature Programmed Desorption/Oxidation/Reduction (TPD/TPO/TPR), Gas adsorption capacity determination, Thermodynamic and kinetic studies, Evolved Gas Analysis (EGA) and Thermogravimetric Analysis (TGA) | Gas adsorption capacity determination, Moisture and organic vapor sorption, Catalyst characterization, Moisture and organic vapor sorption with diffusion coefficient determination, Thermogravimetric Analysis (TGA) and Evolved Gas Analysis (EGA), Temperature Programmed Desorption/Oxidation/Reduction (TPD, TPO, TPR) | Hydrogen storage capacity determination, Pressure-Composition-Temperature (PCT) measurements, Thermodynamic and kinetic studies, Metal hydrides and nanoporous materials (carbons, zeolites, MOFs and polymers) | Gas adsorption isotherm determination, Specific surface area (BET) determination, Energy gas (H2, CH4) storage and separation, Thermodynamics of high pressure gas adsorption, Nanoporous materials (carbons, zeolites, MOFs, polymers and shales) |
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