Seminario web: Métodos experimentales para la captura de CO2 en presencia de vapor de agua
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2048 Views •Webinar: Challenges on specific surface area analysis of cellulosic materials
2043 Views •Webinar: Understanding Isotherm Shape and Isotherm Modelling from DVS Experiments | Dr. Daniel J. Burnett
1070 Views •Webinar: The Effect of Surface Properties on Granulation Performance
1023 Views •Webinar: The Importance of Moisture in Pharmaceuticals and Food Materials by Surface Energy
938 Views •Particle Engineering in Pharmaceutical Solids Processing
884 Views •Webinar: Analysis of Food Products by Dynamic Vapour Sorption
663 Views •Webinar: Surface energy analysis for measuring physicochemical properties of materials
609 Views •Webinar: The Surface Properties and Water Adsorption Behaviour of Hair Fibers
585 Views •Webinar: Polymer characterization by Vapor Sorption Methods with Dr. Daniel Burnett
301 Views •Webinar: Water Sorption and Gas Adsorption Measurements on MOFs
239 Views •Webinar: Capture of Hydrogen Sulphide and Sulphur Dioxide in MOFs
212 Views •Webinar: Experimental Methods for Determining Carbon Dioxide Capture in the Presence of Water Vapor
122 Views •Workshop: Sorption Science Innovations in Cellulosic Material Characterization
104 Views •Webinar: Battery Electrode Active Materials Characterization
70 Views •Dynamic Vapor Sorption (DVS) Applications for Amorphous Content Calculations & in situ Raman studies
51 Views •Workshop: Characterizing Construction Materials by Vapor Sorption Techniques
47 Views •Webinar: Analysis of Wood and Building Materials using Dynamic Vapour Sorption
43 Views •Webinar: Experimental Methods for Determining Carbon Dioxide Capture in the Presence of Water Vapor
Presenter:
Dr. Daryl Williams
Founder
Surface Measurement Systems
In the real world, capture/adsorption of CO2 is often a competition with other gas-phase species, most commonly water vapour. In some cases, the concentration of H20 vapor is much higher than that of CO2 further complicating the adsorption process.
This presentation, delivered by one of the world’s leading authorities in sorption science, Dr. Daryl Williams, will compare the use of two of the most commonly used experimental approaches for studying CO2 sorption in the presence of H20 vapor; gravimetric analysis using Dynamic Vapour Sorption (DVS) and breakthrough analyzer studies. To give the audience maximum insight, experimental details and case study comparisons of adsorbent performance will also be presented
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