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为了摸清液压榨油规律及最佳榨油条件,考察了不同含壳率、含水率油茶籽原料,以及原料在不同烘烤温度、破碎茶籽粒径、水蒸气蒸制等条件下液压压榨后油茶籽油的出油率和营养成分变化规律。通过分析试验数据得出当液压压榨油茶籽原料中含壳率为20%,含水率3%~5%,原料入榨前在120℃烘烤1 h后进行液压压榨后产油率和得到的茶油营养物质的含量相对较高。研究还发现,油茶籽破碎蒸制后出油率有所上升,但所榨茶油酸价也明显上升,各种营养成分与蒸制前无显著提高,因此得出采用液压工艺榨油应通过适当温度烘制,而不必利用水蒸气蒸制来提高出油率和油脂品质的结论,且入榨前对原料进行适当破碎有助于提高液压榨油的出油率。 相似文献
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采用微波技术对油茶籽进行预处理,探讨微波处理条件对茶油提取率和茶油的酸价、过氧化值、磷脂、类胡萝卜素、甾醇、多酚、黄酮含量的影响。在单因素试验基础上,从提油效果、茶油的理化指标、营养功能指标各选择一个代表性的指标,进行正交试验优化。结果表明,油茶籽水分含量、微波功率密度、微波处理时间对油茶饼的残油率、茶油的理化指标和营养功能成分含量均有一定的影响,微波预处理条件为当原料水分含量11%~13%,微波功率密度3~5 W/g,微波处理时间4~6 min时,出油率高,茶油品质好。 相似文献
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为得到高品质的核桃油及低变性的核桃蛋白,研究核桃油冷榨提取工艺。确定核桃仁碱法脱皮最佳工艺条件为:NaOH浓度0.6%,浸泡温度65℃,浸泡时间15 min。以脱皮核桃仁为原料,通过单因素和正交试验确定核桃油液压冷榨最佳工艺条件为:压榨压力30 MPa,压榨时间40 min,入榨水分为1.5%,在此工艺条件下出油率为93.19%。对核桃油的品质进行测定,结果表明脱皮冷榨核桃油质量符合国家标准,特别是其色泽、酸值和过氧化值显著优于核桃油国家标准和热榨核桃油,冷榨核桃油不饱和脂肪酸含量达到93.02945%,具有很高的营养价值。 相似文献
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选择ZX10螺旋榨油机、低温螺旋榨油机、德国KEK螺旋冷榨机、6yy-230仿韩国液压榨油机、QYZ系列液压榨油机对核桃仁进行压榨试验,对核桃出油效果和饼中残油进行对比和分析,选择出适合核桃制油的最佳设备为QYZ系列液压榨油机。该机在压榨温度低于60℃,压榨30 min时,饼中残油16.1%,蛋白几乎无变性,为核桃制油尤其是冷榨制油作出了有益探索。 相似文献
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油茶籽冷榨工艺技术及预处理装备探讨 总被引:1,自引:0,他引:1
介绍了油茶籽独特的性能及其组成,对现有油茶籽冷榨工艺技术及压榨效果进行了简述,对油茶籽冷榨工艺的干燥、清理、剥壳分离等预处理装备进行了探讨,并就冷榨茶饼的后续加工要求提出了看法.选择合适的低温螺旋榨油机,控制好工艺条件,可使饼中残油小于4%,冷榨饼是否浸出制油,需根据成本-效益原则综合评定. 相似文献
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为研究不同油茶籽加工处理方式对制取油脂品质的影响,以及不同压榨阶段和处理方式制取的油茶籽油品质的差异性,采用液压中试设备对烘制和炒制的油茶籽,以及粉碎蒸制处理后的油茶饼分别进行压榨制油生产试验,并对制取的油茶籽油进行品质分析。结果显示,烘制处理和炒制处理压榨制取的油茶籽油酸价和过氧化值差异显著(P<0.05),但均符合国家标准要求,两种处理方式对制取的油茶籽油脂肪酸组成影响不大,而烘制处理的磷脂含量较炒制处理低(P<0.05),甾醇总量、角鲨烯、总多酚以及总黄酮含量均较炒制处理高(P<0.05),烘制处理压榨制取的油茶籽油品质较佳;二次压榨制取的油茶籽油磷脂、甾醇总量和维生素E含量较一次压榨制取的油茶籽油高(P<0.05),但角鲨烯和总多酚含量较低(P<0.05);在二次压榨生产过程中,蒸制处理能影响油茶籽油的脂肪酸组分,从而使部分脂肪酸组分的含量形成差异显著(P<0.05),且蒸制处理能使油茶籽油中的甾醇总量提高66.51%,但对油茶籽油中的角鲨烯、维生素E、总多酚及总黄酮的含量无显著性影响(P>0.05),油茶饼粉碎蒸制后二次压榨制取的油茶... 相似文献
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油茶籽油的水代法提取工艺研究及品质分析 总被引:2,自引:0,他引:2
对油茶籽的千粒重、出仁率、含水量和含油率等经济性状进行研究,在此基础上,以出油率为指标,对水代法制取油茶籽油的工艺进行试验.结果表明,水代法提取茶油的最佳工艺条件为水料比5:1(v:m)、焙烤温度190 ℃、焙烤时间20 min、提取时间120 min.该工艺制备的茶油除水分与挥发物含量外,其他各项指标均符合一级压榨茶油的标准. 相似文献
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Borage seed oil extraction using cold pressing produces a good oil quality, but it has a low-yield. In a previous study on a borage oil extraction process by cold pressing using commercial enzymes, the oil yield was enhanced in comparison to the control without enzymes. The aim of this work was to further evaluate the effect of temperature, moisture and time of enzymatic hydrolysis; and the effect of this treatment under selected conditions on the pressing stage and on product qualities. The best treatment condition with Olivex–Celluclast was 45 °C, 20% moisture over 9 h of treatment. When the extraction of the pre-treated borage meal was carried out by double pressing (20 min each) on preheated matter, 95% of the oil was recovered. The enzymatic treatment did not affect the oil quality and the residual meal was more valuable due to its lower fibre content. 相似文献
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为了提高杏仁油的提取率,确保得到高品质的油脂以及低残油且保留高天然生物活性的蛋白饼粕,本实验探索了一种利用液力榨油机浸榨结合压榨的方法。在静力压榨梯度为8-16-24-32-48-64 MPa下对杏仁压榨30min,后在95%乙醇溶液中以不同固液比例对杏仁粕浸润20min,并在静压梯度为8-16-24-32-48MPa下对粕二次压榨20min。结果表明:初次压榨杏仁油的提取率为74.15%,杏仁粕中残油率23.99%。在乙醇浸润二次压榨阶段,最佳固液比为3.5:1(m/m),油脂提取率可达62.53%,此时粕中残油率降为10.57%。结论表明:采用将液力压榨和乙醇浸润压榨相结合的工艺方法,杏仁油的总提取率可达90.32%。 相似文献
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对芝麻油料进行微波处理,选择微波功率、微波时间、增湿比例、缓苏时间为影响因素,饼残油率为考察指标,进行单因素实验,再在单因素实验结果基础上,进行正交实验,确定最佳微波条件,最后对比未经微波处理和最佳条件微波处理后所得油脂的品质。结果表明,微波处理能够提高芝麻出油率,且微波处理能够提高油中芝麻素和芝麻林素的含量,但对芝麻油的色泽、碘值、酸值、主要脂肪酸含量影响不大。微波处理后芝麻油的过氧化值会提高,但其含有的芝麻素、芝麻林素等抗氧化物质会使其氧化稳定性提高。微波处理油料可用作油料的预处理。 相似文献
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利用蒸汽爆破对油茶籽进行处理,探究不同蒸汽爆破压力、维压时间对油茶籽油提油率、油品理化性质、活性物质含量变化的影响,并分析影响其品质变化的内部因素。结果表明:当蒸汽爆破压力在0~1.6 MPa时,油茶籽油提油率随着压力的升高而增加,超过1.6 MPa时,提油率下降;当维压时间为30 s时,提油效果优于其他处理时间;因此蒸汽爆破处理最佳条件为1.6 MPa处理30 s。蒸汽爆破处理可以降低油茶籽油的酸价、过氧化值,提高油茶籽油的碘值、多酚质量浓度和角鲨烯、VE含量。经汽爆处理的油茶籽表面变得粗糙,结构遭到破坏,进而有利于油茶籽油和活性物质的释放。蒸汽爆破处理加速了油茶籽油美拉德反应的发生。因此,蒸汽爆破预处理有利于油茶籽油的提取和活性物质的释放。 相似文献
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The effects of Gac oil extraction conditions including microwave power, microwave time, steaming time and hydraulic pressure on extraction efficiency (EE), and β-carotene and lycopene contents were studied. It was found that the EE, and β-carotene and lycopene contents could be enhanced by suitable extraction conditions. Microwave drying was found to be better than air drying for pretreatment. Moisture content after drying and steaming between 8% and 11% (wt/wt) were best for pressing. Results showed that the most suitable conditions for Gac oil extraction from 900 g samples were microwave power of 630 W, microwave time of 65 min, steaming time of 20 min and hydraulic pressure of 170 kg/cm2. Under these conditions, the highest EE of 93% was achieved while Gac oil contained the highest content of β-carotene and lycopene at 140 and 414 mg/100 mL, respectively. 相似文献
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Marcela L. Martínez Miguel A. Mattea Damin M. Maestri 《Journal of food engineering》2008,88(3):399-404
The objective of this study was to evaluate the oil extraction process from walnut seeds by pressing followed by extraction with supercritical CO2. In pressing experiments, a factorial arrangement was conducted in order to study the combined effects of seed moisture content (2.5%, 4.5% and 7.5%) and pressing temperature (25, 50 and 70 °C) on oil recovery and quality parameters. For all conditions tested, the oil quality compared well with that of cold-pressed walnut oil. Oil recovery increased significantly as moisture content raised. Highest oil recovery (89.3%) was obtained at 7.5% moisture content and 50 °C temperature. The cake resulting from pressing at these conditions was extracted with CO2 in a high pressure pilot plant with single stage separation and solvent recycle. The effects of two different pressures (200 and 400 bar) and temperatures (50 and 70 °C) with regard to oil yield and quality, and time required for extraction were analyzed. At each condition, the extraction rate changed with the mass of solvent and extraction time. At first, the mass of oil extracted was determined by the oil solubility in CO2 and a linear relationship was observed, where the slope results in the solubility of oil in CO2 at the experiment conditions. After that, the extraction rate was governed by solubility and diffusion, and continuously decreased with time. The colour changed along the extraction from a whitish clear product to a yellow one. Tocopherol and carotenoid contents were significantly higher than those obtained by pressing. Extraction conditions did not affect significantly the fatty acid composition. 相似文献