Dept. of Food Engineering, Univ. of Mersin, 33343 Çiftlikköy-Mersin, Turkey.
J Food Sci. 2011 Jun-Jul;76(5):M284-92. doi: 10.1111/j.1750-3841.2011.02192.x. Epub 2011 May 9.
Cumin seeds might be exposed to a high level of natural bacterial contamination, and this could potentially create a public health risk besides leading to problems in exportation. Ultraviolet (UVC) and far infrared (FIR) radiation has low penetration power, and due to that, there might be no detrimental defects to the products during a possible decontamination process. Therefore, the objective of this study was to determine the effect of UVC and FIR treatment on microbial decontamination and quality of cumin seeds. For this purpose, FIR treatment at different exposure times and temperatures were applied followed by constant UVC treatment with an intensity of 10.5 mW/cm² for 2 h. Total mesophilic aerobic bacteria of the cumin seeds were decreased to the target level of 10⁴ CFU/g after 1.57, 2.8, and 4.8 min FIR treatment at 300, 250, and 200 °C, respectively, following a 2 h UVC treatment. Under the given conditions, a complete elimination for total yeast and molds were obtained while there were no significant changes in volatile oil content and color of the cumin seeds. Consequently, combined UVC and FIR treatment was determined to be a promising method for decontamination of the cumin seeds.
This research attempts to apply UVC and far infrared (FIR) radiation for pasteurization of cumin seeds. The data suggested that combined UVC and FIR radiation treatments can become a promising new method for pasteurization of cumin seeds without causing any detrimental defect to the quality parameters. The results of this industry partnered (Kadioglu Baharat, Mersin, Turkey--http://www.kadioglubaharat.com) study were already applied in industrial scale production lines.
小茴香籽可能会受到高水平的天然细菌污染,这除了会导致出口问题外,还可能带来公共健康风险。紫外线 (UVC) 和远红外线 (FIR) 的穿透能力较低,因此,在可能的消毒过程中,产品可能不会有任何有害缺陷。因此,本研究的目的是确定 UVC 和 FIR 处理对小茴香籽微生物消毒和质量的影响。为此,应用了不同暴露时间和温度的 FIR 处理,然后用强度为 10.5 mW/cm² 的恒定 UVC 处理 2 小时。经过 2 小时的 UVC 处理后,小茴香籽中的总需氧嗜温细菌在 300°C、250°C 和 200°C 下分别经过 1.57、2.8 和 4.8 分钟的 FIR 处理,可降低至 10⁴ CFU/g 的目标水平。在给定条件下,总酵母和霉菌完全消除,而小茴香籽的挥发性油含量和颜色没有明显变化。因此,联合 UVC 和 FIR 处理被确定为一种有前途的小茴香籽消毒方法。
本研究试图应用 UVC 和远红外线 (FIR) 辐射对小茴香籽进行巴氏消毒。数据表明,联合 UVC 和 FIR 辐射处理可以成为一种有前途的小茴香籽巴氏消毒新方法,而不会对质量参数造成任何不利影响。该研究的结果已经在工业规模的生产线中得到应用。(Kadioglu Baharat,梅尔辛,土耳其 - http://www.kadioglubaharat.com)
