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5. Conclusions In this article many subjects have been covered. Among the most important are the general criteria for selecting an adsorbent: capacity, selectivity, regenerability, kinetics, compatibility, and cost. Specific details regarding adsorbents were also covered, including appearance, structure, effective surface area, required pretreatment, physical forms, manufacturers, and applications. The materials covered included inorganic materials (such as aluminas, silicas, and zeolites), and organic materials (such as carbons and polymers). The criteria for choosing adsorbents were explained, and included adsorption equilibrium, isotherm equations, mixture equilibria, instrument types and data analysis, and adsorption dynamics. Finally, a few case studies were mentioned briefly. The major points to keep in mind are that there are dozens if not hundreds of options among adsorbent types and manufacturers. New varieties are being introduced constantly. The nature of competition is such that, generally, not a word is whispered about those under development until they are ready to be sold. So relying on a historical product line is not necessarily prudent, unless the application is very ordinary. On the other hand, even though new products may appear “optimal” due to forceful sales presentations, they may not be best for your particular application. It is best to approach the task by asking the right questions to get to the bottom of which material best satisfies all the criteria, and not being satisfied with jargon for answers. 21PDF Image | ADSORBENT SELECTION
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