Effect of Pre-Treatments on Mechanical Oil Expression from Dika Kernels

Ogunsina B.S. , Olatunde G.A. , Adeleye O.
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引用次数: 14

Abstract

The effect of pre-treatments on mechanical oil expression from dika kernels was investigated in this study. The parameters considered were particle sizes (fine and coarse), moisture content (4, 6, and 8%), heating temperature (30, 40, and 50°C), heating time (15, 35 and 45 min) and applied pressure (5, 10 and 15 MPa). The results showed that the oil point pressure of dika kernels reduced with increase in heating temperature and time and moisture content. The highest oil point pressure for coarse particles was recorded at 2.11 MPa; whereas oil point pressure for fine particles was below 1 MPa. The lowest pressure at which oil began to flow was 0.41 MPa (at 50°C and 8.3% MC) while the highest was 0.65 MPa (at 30°C and 4.2% MC). The optimal oil point pressure ranged from 0.55 to 0.65 MPa for fine particles and 1.51 to 2.11 MPa for coarse particles. The least oil yield was at 4% moisture content at 5 Mpa for coarse particles; whereas the highest yield was obtained at 4% moisture content at 15 MPa for fine particles. For coarse particles, resistance to oil flow decreased significantly with increase in moisture content, heating temperature and heating time. The optimal oil expression occurred at pressure range of 0.55 to 0.65 MPa for fine particles and 1.51 to 2.11 MPa for coarse particles. Dika kernel has a high oil content, which makes it valuable for oil production. An understanding of the response of oil yield to various pre-treatments will provide valuable information for the optimization of dika oil expression.

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预处理对大豆籽粒机械油脂表达的影响
本研究研究了预处理对大豆籽粒机械油表达的影响。考虑的参数包括颗粒大小(细和粗)、含水量(4、6和8%)、加热温度(30、40和50°C)、加热时间(15、35和45分钟)和施加压力(5、10和15 MPa)。结果表明:籽粒油点压力随加热温度、加热时间和含水率的增加而降低;粗颗粒最高油点压力为2.11 MPa;细颗粒油点压力小于1 MPa。油开始流动的最低压力为0.41 MPa(50℃,8.3% MC),最高压力为0.65 MPa(30℃,4.2% MC)。细颗粒的最佳油点压力为0.55 ~ 0.65 MPa,粗颗粒的最佳油点压力为1.51 ~ 2.11 MPa。粗颗粒在5 Mpa条件下,含水率为4%时出油率最低;而细颗粒在15 MPa条件下,含水率为4%时产率最高。对于粗颗粒,随着含水率、加热温度和加热时间的增加,对油流的阻力显著降低。细颗粒在0.55 ~ 0.65 MPa压力范围内,粗颗粒在1.51 ~ 2.11 MPa压力范围内,油分表现最佳。地卡仁含油量高,具有采油价值。了解不同预处理条件下原油产量的变化规律,将为优化地卡油藏的产油方式提供有价值的信息。
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