Soybean moisture absorption properties and their related size changes by imaging (Part 2) 3D size changes-
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Date
2000
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Publisher
J SASJ
Abstract
The study was conducted by using 2D image processing technique, actual measurements of three dimensions
'a' , 'b' and 'c' mutually perpendicular axes by vernier caliper and actual volume of grain by picnometer during
soaking, with an objective of estimation of volume. The study revealed that; (1) the ratio of instantaneous size to
initial size a/a0, b/b0 and c/c0 change with moisture content have a significant disproportion as moisture content
increases. (2) The ratio 'b/a' and 'c/a' changes with moisture content have 3 periods: constant, falling, and
equilibrium. (3) Shape factor has linear relationship with moisture content, and temperature is insignificant. (4) The
product of the sizes 'a', 'b' and 'c', that is volume of the circumscribing rectangular box, closely estimates measured
volume of grain based on circumscribed theoretical volume within r2=0.90. (5) Specific volume (abc) and actual
specific volume have linear relationship with moisture content, and temperature is insignificant. (6) Actual dry solid
density of soybean can be extrapolated from specific volume-moisture content relation, and evaluated as 1.36
(g/cm3). Difference in initial moisture content is insignificant. (7) Image pixels raised to the power of 1.5 modified
by shape factor can estimate measured volume within r2=0.90.
Description
Keywords
Soybean, Specific volume, Moisture content, Moisture absorption, Three-dimension (3D), Image pixels, Shape factor