利用超滤技术浓缩作为防腐剂的香茅牛奶的可能性

H. Al-hamdani, A. Alnaemi, Azhar Getan
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摘要

背景:本研究旨在探讨在实验室使用超滤技术而不是伊拉克仍在使用的传统蒸发法浓缩牛奶的可能性。方法因此,我们从可靠的来源处提取了 5 升生牛奶,并添加了两种不同浓度的柠檬草作为防腐剂,以观察浓缩过程中发生的化学和微生物变化。结果发现,最佳条件是将牛奶浓缩 2.7 倍,并在添加柠檬草提取物作为防腐剂的情况下经过多日改进。我们选择了一种平膜聚乙二醇酚材料,其测量值为 10 kdalton(美国斯奈德公司)。在三个多小时的实验过程中,一直在进行测量。对两组数据进行了检验:在第一组数据中,流速在 0.15 至 0.25 升/分钟之间变化,而跨膜压力(TMP)则保持在 2 巴不变。0.15 升/分钟的数值被确定为理想流量。在第二组中,反向膜压力在 0.5 至 1.2 巴之间变化,而流量则保持在 0.15 升/分钟。当跨膜压力为 2 巴时,发现理想通量值为 35°C,渗透通量约为 5-7 升/平方米.小时。结果结果发现,总固体和蛋白质的百分比随过滤时间的延长而变化。在生物测试结果中,两种浓度下的细菌总数都有明显下降(P 小于 0.05)。
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Possibility of Concentrating Milk Enriched with Lemongrass (Cymbopogon) as a Preservative using Ultrafiltration Technology
Background: This study aimed at the possibility of concentrating milk in the laboratory using ultra-filtration technology instead of the traditional evaporation method that is still used in Iraq. Methods: Therefore, 5 litres of raw, cow milk were taken from a reliable source and two different concentrations of lemongrass were added as a preservative to observe the changes occurring during concentration, chemically and microbial. The best conditions were found to concentrate the milk 2.7 once and improve it over many days with the addition of lemongrass extract as a preservative. A material with a flat membrane polyethyle-solphen with a measurement of 10 kdalton (Snyder USA) was selected. Throughout the duration of the more than three-hour experiment, the measurements were taken. Two sets of data were examined: in the first set, the flow rate was varied between 0.15 and 0.25 L/min while the trans membrane pressure (TMP) was kept constant at 2 bar. The value of 0.15 L/min was determined to be the ideal flux. In the second group, the trans membrane pressure was varied between 0.5 and 1,2 bar while the flow rate was kept constant at 0.15 L/min. At TMP 2 bar, the ideal flux value was discovered at 35°C, the permeate flux was around 5-7 L/m2.hr. Result: It was found the change of the total solid and protein were excellent percentages with time of filtration. The total number of bacteria at both concentrations decreased significantly (p less than 0.05) in the biological test results.
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