Abstract:
Investigation was conducted to evaluate the performance of the locally the determination of fabricated screw expeller used for the experiment. It was found that applied pressure was the main factor influencing the performance of the expeller. The effect of the applied pressures on the expression temperature, pressing time, oilyield from palm kernel, expeller feed rate, oil extraction rate and extraction efficiency was investigated. The highest extraction efficiency of the of the expeller was found to be 84.51 percent.
Experiment were also performed on the screw expeller to determine the effects of preheat temperature in it the presence and absence of water applied pressures,
and kernel moisture content on palm kernel oil yield. These main effects were found to be statistically significant in both cases. In the determination of the kernel optimum oil yield point, a mathematical model was developed using the statistical package
for social sciences (SPSS) . The optimum oil yield for the range of variables (factors)
considered in this study was found to be 2.133 kq or 2.34 litres of oil from 5 kg of palm kernel,(that is 89% of the oil in the kernel) at kernel moisture content
between 5, to 5.60 percent,preheat temperature in the absence of 120°C and applied pressure of 59 Mr^3a for preheating in the absence of water or any other medium.
The maximum oilyield of 2.107 kg or 2.32 litres (88%) was obtained at moisture content between 2.85 to 3 percent, preheat temperature is 120°C and applied pressure of 59MPa for preheating in the presence of water. Although preheating in the presence has been found to improve the quality of palm kernel oil, higher pressure Is required to completely express the whole oil from the kernel than in the preheating in the absence of water. The effect of duration of pressing in minutes on oilyield was also investigated,
it was found that the oilyield increased substantially at initial time,but becomes constant
at further increase in the duration of the pressing
at prescribed temperature at pressure.
