Modern Drying Technology, Volume 2: Experimental Techniques
This five-volume handbook provides a comprehensive overview of all important aspects of modern drying technology, including only cutting-edge results.
Volume 2 comprises experimental methods used in various industries and in research in order to design and control drying processes, measure moisture and moisture distributions, characterize particulate material and the internal micro-structure of dried products, and investigate the behavior of particle systems in drying equipment. Key topics include acoustic levitation, near-infrared spectral imaging, magnetic resonance imaging, X-ray tomography, and positron emission tracking.
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Measurement of Average Moisture Content and Drying Kinetics
Use of XRay Tomography for DryingRelated Applications
absorbance acoustic levitation adhesion adsorbed adsorption analysis angle applied attenuation coefﬁcient attrition behavior breakage bulk solid calculated calibration capillary Chem coefﬁcient compression computed tomography concentration convective coulometry decrease deﬁned deformation density determined dew point diameter droplet drying curve drying kinetics drying process drying rate energy experimental ﬁber ﬁlter ﬁrst ﬂow rate ﬂuctuations ﬂuid ﬂuidized bed force frequency friction function gradient granules impact inﬂuence intensity interaction layer light liquid magnetic resonance imaging mass material measured method microtomography moisture content moisture distribution moisture proﬁles normal nuclear magnetic resonance obtained optical packed bed parameters particle image velocimetry particle velocity phase pores Powder Technol reﬂected sample scattering shear tester shown in Fig signal single particle sludge sound pressure spatial speciﬁc spectral spherical stress surface suspension technique temperature Tsotsas volume voxel water content X-ray tomography Yarin zeolite