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臭氧水稳定性及对耐热菌冷杀菌的研究 总被引:2,自引:0,他引:2
研究了臭氧水的稳定性及对耐酸耐热菌的杀菌效果。分别进行中和剂试验、悬液杀菌试验和载体模拟验证,研究结果表明:浓度为31.1mg/L的臭氧水对耐酸耐热菌作用15min,其杀菌率达99.96%,并对载体表面的耐热菌有很好的杀灭作用。 相似文献
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食品加工中的非热杀菌技术 总被引:3,自引:0,他引:3
非热杀菌技术是食品加工中的一类崭新技术,它可克服传统热杀菌的不足,有效地保持食品中的营养成分,可以更好地保护食品的色、香、味.文章主要介绍了高压脉冲电场杀菌、脉冲强光杀菌、超高压杀菌、辐射杀菌、超声波杀菌、紫外线杀菌、臭氧杀菌技术在食品加工中的最新进展及应用情况. 相似文献
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传统热杀菌会对食品品质产生不利影响,造成食品颜色变化、产生异味、营养损失等不良后果;非热杀菌技术是食品工业新型加工技术,处理过程中可以保持相对较低的温度,对食品的色、香、味以及营养成分影响较小;同时有利于保持食品中各种功能成分的生理活性,可以满足消费者对高品质食品的要求。芽孢在加工过程中抗性强,在食品中萌发和生长的潜力较大,因此,利用低热或非热灭菌技术对芽孢进行灭活是当前食品工业面临的严峻挑战和重要课题。本文综述现有非热杀菌技术(如高静压技术、高压CO2技术、低温等离子体技术、紫外辐射技术、高压脉冲电场技术等)独立处理或与其他处理技术相结合对芽孢灭活的效果及其机理,着重讨论其在食品行业中的应用以及芽孢灭活的分子机制,以期为生产安全食品、减少不同种类食品中微生物污染提供解决方案。 相似文献
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高压脉冲电场非热杀菌技术对原料乳的预处理 总被引:8,自引:0,他引:8
针对国内原料乳质量低下这一问题,运用高压脉冲电场非热杀菌技术对原料乳进行预处理。发现原料乳的细菌总数随电场强度、脉冲数、初始温度的增加而降低,随流速的增加而升高。当出口温度为常温20℃,电场强度E=50kv/cm,脉冲频率为1000Hz,流速为20ml/min时,能使其菌落总数降低2.6个数量级,从四级原料乳提升至一级原料乳,且不改变其营养结构和风味。 相似文献
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High Intensity Ultrasound for Salmonella Enteritidis Inactivation in Culture and Liquid Whole Eggs 下载免费PDF全文
High intensity ultrasound (HIU) continues to be researched as a nonthermal inactivation technology of appeal to food manufacturers. The advantages of HIU include maintenance of product quality, freshness, product homogenization, along with simultaneous inactivation of pathogens. Besides, it is simple, relatively inexpensive, and easily adaptable to most processing environments. This study investigated the effect of HIU for Salmonella Enteritidis inactivation in culture and liquid whole eggs (LWEs) to decrease egg‐associated outbreaks. Overnight S. Enteritidis cultures and spiked LWE (both at 8 log CFU/mL) were treated with 20‐kHz HIU for 0, 1, 5, 10, and 30 min (n = 6) in a temperature‐controlled system, not to exceed 20 °C, and replicated thrice. At each time point, samples were enumerated on XLT4 agar and morphologically analyzed using scanning electron microscopy, with measurements of color and rheological properties. Our results revealed significant reduction of healthy S. Enteritidis cells up to 3.6 log CFU/mL and 2.3 log CFU/25 mL after HIU treatment of merely 10 min of overnight culture and 30 min in LWE, respectively (P < 0.05). After 5 and 10‐min HIU treatment, significant reduction of 1.4‐log CFU/25 mL healthy S. Enteritidis in LWE was obtained (P < 0.05). Even at 1‐min exposure time, HIU showed significant 1.9 log CFU/mL reduction of cultures (P < 0.05); however, no log‐reduction was observed in LWE after 1 min. Scanning electron micrographs showed increased cell structural damage using longer HIU exposure. For product color changes, lower redness and yellowness of LWE were observed visually and instrumentally after 5‐min HIU treatment (P < 0.05). The rheological properties of LWE measured at 0 to 200 s?1 shear rate, showed that shear stress of HIU‐treated LWEs decreased after 5‐min HIU exposure, but increased after 30‐min treatment. This study demonstrated that HIU shows promise for rapid Salmonella control in LWE and other liquid foods, as an alternative inactivation method for use in hurdle approaches. 相似文献
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近年来,超声波因具有绿色、无残留等优势,成为非热加工技术领域的研究热点之一,且在杀菌领域也逐渐受到关注。然而研究结果表明,单独超声波处理对微生物的作用有限,可通过栅栏技术改善这一情况,即联合其他技术手段协同杀菌。杀菌剂应用范围广,兼具价格低廉、易于获得、贮存方便等优势,与超声波联合使用后,既能有效提升杀菌效果,还能减少杀菌剂有害副产物残留、改善杀菌剂渗透性差等问题。本文综述了超声波空化效应导致的超声穿孔、声化学、声致发光效应,重点阐述了超声波联合杀菌剂杀菌的机理和影响因素,以及联用杀菌技术在食品领域的应用,并对未来的研究方向进行了展望,旨在为进一步研究基于超声波与杀菌剂的联用杀菌技术提供参考。 相似文献