流化床干燥固态发酵(SSF)乳酸菌的储存稳定性和性能

.. Akshaykumar, M. H, Devaraju R, Ramachandra B, .. Basavabharati, Madhusudan Nm, S. Cs
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The spores were killed by sterilizing the black gram dhal at 1210C for 30 minutes and then exposing it to a hot air oven at 1000C for one hour. Black gram dhal containing 1:0 was used to obtain the maximum viable starter counts of dahi (8.41 log10cfu/g), yoghurt (8.98 log10cfu/g), and probiotics (9.47 log10cfu/g) cultures during fermentation. Ash gourd, carrot, tomato, and skim milk powder liquids were added to the 8:1 moisture ratio at 1% level as growth-promoting agents. The fermented SSF cultures were dried on a fluid bed at room temperature (250C) for 1.5 hours. After fluid drying, the SSF culture viability of the probiotic, yoghurt, and dahi cultures dropped from (9.01 to 8.85, 8.65 to 8.33) and 9.65 to 9.34 log10cfu/g, respectively. 9.4% of the SSF cultures' moisture content was observed. Following inoculation of the heat-treated milk with these dried powders of SSF cultures of dahi, yoghurt, and probiotic cultures at 1,0.5, and 3%, the cultures took 5:00, 3:30, and 9:30 hours to establish the heat-treated milk with acidity of 0.68, 0.71, and 0.59% lactic acid, respectively. \nResults: The dried SSF lactic cultures were viable for 40 days at 7±10C, or 6 log10cfu/g, when stored at that temperature. The absence of contaminants such as coliforms, aerobic spores, yeast, and molds in the stored fluid-dried SSF lactic cultures demonstrated the good hygienic practices used during the biomass production. 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引用次数: 0

摘要

目的:除了尝试评估固态发酵乳培养物在加热牛奶中的性能外,本研究还旨在调查冷藏温度储存对固态发酵乳培养物(如达希、酸奶和益生菌培养物)流化床干燥粉末的影响。研究时间和地点:研究在印度卡纳塔克邦班加罗尔 Hebbal 的卡纳塔克兽医、动物和渔业科学大学(KVAFSU,Bidar)乳品科学学院的单季进行 研究设计和方法:需氧孢子存活率方面,生黑克干粉的孢子数最低-1.52 log10cfu/g。先将黑糯米粉在 1210 摄氏度下灭菌 30 分钟,然后在 1000 摄氏度的热风炉中烘烤一小时,孢子就会被杀死。在发酵过程中,使用含 1:0 的黑糯米粉可获得最高的达希菌(8.41 log10cfu/g)、酸奶菌(8.98 log10cfu/g)和益生菌(9.47 log10cfu/g)起始菌数。灰瓜、胡萝卜、番茄和脱脂奶粉液作为生长促进剂被添加到 8:1 的水分比中,添加量为 1%。发酵后的 SSF 培养物在室温(250℃)下的流化床上干燥 1.5 小时。流化干燥后,益生菌、酸奶和大米的 SSF 培养物活力分别从(9.01 降至 8.85、8.65 降至 8.33)和 9.65 降至 9.34 log10cfu/g。SSF 培养物的水分含量为 9.4%。在热处理过的牛奶中接种 1%、0.5% 和 3% 的达喜、酸奶和益生菌 SSF 培养物干粉后,培养物分别需要 5:00、3:30 和 9:30 小时才能在热处理过的牛奶中形成酸度为 0.68%、0.71% 和 0.59% 的乳酸。结果干燥的 SSF 乳酸菌在 7±10C 温度下可存活 40 天,或在该温度下储存时可存活 6 log10cfu/g。储存的流体干燥 SSF 乳培养物中没有大肠菌群、需氧孢子、酵母和霉菌等污染物,这表明生物质生产过程中采用了良好的卫生方法。随着冷藏天数的增加,凝乳期也会延长,这与储存的 SSF 乳酸培养物的性能有关,因为存活乳酸菌数减少了。结论在冷藏温度下储存第 40 天时,益生菌、酸奶和 dahi 培养物的最低存活计数分别为 6.45、6.85 和 6.44 log10 cfu/g。此外,保存的样品中没有大肠菌群、需氧孢子、酵母或霉菌。
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Storage Stability and Performance of Fluid Bed Dried Solid State Fermented (SSF) Lactic Cultures
Aims:  In addition to attempting to evaluate the performance of SSF cultures in heated milk, the current study aimed to investigate the impact of refrigeration temperature storage on the fluid bed dried powder of Solid State Fermented (SSF) lactic cultures, such as dahi, yoghurt, and probiotic cultures. Duration and Place of study: The study was carried out in single season at Karnataka Veterinary, Animal and Fisheries Sciences University (KVAFSU, Bidar), Dairy Science College, Hebbal, Bangalore, Karnataka, India Study design and Methodology: aerobic spore survival, the raw black gram dhal had the lowest spore count—1.52 log10cfu/g. The spores were killed by sterilizing the black gram dhal at 1210C for 30 minutes and then exposing it to a hot air oven at 1000C for one hour. Black gram dhal containing 1:0 was used to obtain the maximum viable starter counts of dahi (8.41 log10cfu/g), yoghurt (8.98 log10cfu/g), and probiotics (9.47 log10cfu/g) cultures during fermentation. Ash gourd, carrot, tomato, and skim milk powder liquids were added to the 8:1 moisture ratio at 1% level as growth-promoting agents. The fermented SSF cultures were dried on a fluid bed at room temperature (250C) for 1.5 hours. After fluid drying, the SSF culture viability of the probiotic, yoghurt, and dahi cultures dropped from (9.01 to 8.85, 8.65 to 8.33) and 9.65 to 9.34 log10cfu/g, respectively. 9.4% of the SSF cultures' moisture content was observed. Following inoculation of the heat-treated milk with these dried powders of SSF cultures of dahi, yoghurt, and probiotic cultures at 1,0.5, and 3%, the cultures took 5:00, 3:30, and 9:30 hours to establish the heat-treated milk with acidity of 0.68, 0.71, and 0.59% lactic acid, respectively. Results: The dried SSF lactic cultures were viable for 40 days at 7±10C, or 6 log10cfu/g, when stored at that temperature. The absence of contaminants such as coliforms, aerobic spores, yeast, and molds in the stored fluid-dried SSF lactic cultures demonstrated the good hygienic practices used during the biomass production. The curdling period increased with the number of storage days at refrigeration temperatures in relation to the performance of stored SSF lactic cultures because of the decrease in viable lactic counts. Conclusion: The minimum viable counts of probiotic, yoghurt, and dahi cultures on the 40th day of storage at refrigerator temperature were 6.45, 6.85, and 6.44 log10 cfu/g, respectively. Furthermore, none of the preserved samples had any coliforms, aerobic spores, yeast, or mould in them.
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