화학공학소재연구정보센터
Journal of Food Engineering, Vol.75, No.4, 480-486, 2006
Effect of moisture content on the physical properties of three varieties of sorghum seeds
Three sorghum varieties (Kari-mtama, Serena and Seredo) were obtained from the Kenya Agricultural Research Institute and reconditioned to moisture contents ranging from 13.64% to 21.95%, db. The reconditioned grain kernels were then evaluated for dimensions, 1000 grain mass, bulk density, true density, angle of repose and hardness. The major, medium and minor diameters were found to increase with increase in moisture content for all three varieties of sorghum within the experimental moisture range. At the moisture content of 13.64% db the geometric mean diameter, sphericity, 1000 grain mass, bulk density, true density, porosity, angle of repose and kernel strength were found to be 3.94 mm, 0.737, 33.91 g, 588.4 kg/m(3), 1264 kg/m(3), 53.44%. 30.43 degrees and 87.89 N for Kari-mtama, 3.33 mm, 0.733, 20.89 g, 686.33 kg/m(3), 1087 kg/m(3), 36.86%. 24.41 degrees and 59.64 N for Serena, and 3.15 mm, 0.789, 19.66 g, 757.61 kg/m(3), 1138 kg/m(3), 33.31%, 20.11 degrees and 48.66 N for Seredo, respectively. The geometric mean diameter increased linearly with moisture content for all three sorghum varieties while sphericity remained fairly unchanged. Both the 1000 grain mass and angle of repose increased linearly with moisture content within the experimental testing range (13.64-21.95% db) while bulk density and true density decreased linearly with increase in moisture content. When the moisture content was raised from 13.64% to 21.95% db, the porosity of Kari-mtama decreased slightly but linearly with increase in moisture content while that of Serena and Seredo increased linearly with increase in moisture content. The hardness of Kari-mtama, Serena and Seredo decreased with increase in the moisture content of the grains although a linear relationship with moisture content over the entire range of 13.64-21.95% db was not observed. (c) 2005 Elsevier Ltd. Ail rights reserved.