Effect of Enzyme Modification of Corn Grits on their Properties as an Adsorbent in a Skarstrom Pressure Swing Cycle Dryer |
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Authors: | Kyle E Beery Manish Gulati Eric P Kvam Michael R Ladisch |
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Institution: | (1) Laboratory of Renewable Resources Engineering; and Department of Agricultural and Biological Engineering, Purdue University, West Lafayette, IN, 47907-1295;(2) School of Materials Engineering, Purdue University, West Lafayette, IN, 47907;(3) Laboratory of Renewable Resources Engineering; and Department of Agricultural and Biological Engineering, Purdue University, West Lafayette, IN, 47907-1295 |
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Abstract: | Corn grits have been tested as a desiccant in a pressure swing adsorption (PSA) system to produce dry air. Two sizes of unmodified corn grits were tested in the PSA system: 2.16 and 0.978 mm in diameter, which dried moist air to dew points of –42°C and –69°C, respectively. A modification technology has been developed for the corn grits that gives an increase in the operational adsorptive capacity in a pressure swing adsorption system, so that they remove as much moisture from air as molecular sieves at the same conditions. After modification, 2.16 mm corn grits dry moist air to a –56°C dew point and the 0.978 mm corn grits dry air to a –80°C dew point. The modification process creates surface modifications on the corn grits apparently making more adsorption sites easily available. The modification procedure increases the specific surface area of the grits and possibly decreases the crystallinity, which would make more hydroxyl groups available for adsorption of water. Possible applications of using corn grits in the pressure swing adsorption system include industrial gas dryers, sorptive cooling air conditioners, and recycling equipment for industrial solvents. |
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Keywords: | materials synthesis techniques biochemical pressure swing adsorption characterization of properties |
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