A mathematical simulation of uniaxial compression of oilseeds for oil extra
ction was developed based upon combining Terzaghi's theory of consolidation
for saturated soils with Darcy's law for unsaturated flow, while incorpora
ting the time-varying nature of the coefficients of permeability and consol
idation. The model was validated for extruded soy and for sunflower seeds.
Material parameters were determined experimentally and predictions of oil r
ecovery rates made for several levels of temperature, pressure and initial
sample depth.
Results indicated that while the model predicted the values of oil recovery
for extruded soybean very well, the predictions were not satisfactory for
sunflower seed samples. The higher error was attributed to material non-hom
ogeneity and the presence of hulls in the sunflower seeds, which increased
errors in measurement of the medium permeability function. The lack of expe
rimental permeability data in the very early stages of pressing (t < 60 s)
was an important source of error in general. The incorporation of varying m
aterial properties in the simulations resulted in substantially more accura
te predictions of quantities and trends in oil recovery with time, when com
pared to using constant (averaged) values of material parameters. (C) 2000
Silsoe Research Institute.