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Effect of Ozone Treatment for Safety Improvement of Fresh Vegetable Juice

녹즙의 위생화를 위한 오존처리의 효과

  • Cho, Jae-Min (Division of Food and Biotechnology, Chungju National University) ;
  • Kwon, Sang-Chul (Chamsunjin Food Co., Ltd.) ;
  • Tu, Gi (Division of Food and Biotechnology, Chungju National University) ;
  • Jeong, Jae-Hyun (Division of Food and Biotechnology, Chungju National University) ;
  • Lee, Kyung-Haeng (Division of Food and Biotechnology, Chungju National University)
  • 조재민 (충주대학교 식품생명공학부) ;
  • 권상철 ((주)참선진종합식품) ;
  • 도기 (충주대학교 식품생명공학부) ;
  • 정재현 (충주대학교 식품생명공학부) ;
  • 이경행 (충주대학교 식품생명공학부)
  • Published : 2009.05.29

Abstract

Fresh vegetable juice is a non-heat treated product and the only step to reduce microbial growth is washing. Therefore, the materials for fresh vegetable juice including Angelica keiskei, Brassica loeracea var. acephala, and Daucus carota L. were treated by ozone after the first washing process and investigated for microbial and chemical changes. The number of the total aerobic bacteria in materials after selection step were $8.2{\times}10^5{\sim}5.0{\times}10^6\;CFU/g$, which was a higher contamination level than the limit of Korea food code ($10^5\;CFU/g$). However, after the 1st washing process and ozone treatment, the total aerobic bacterial number was reduced to $4.7{\times}10^4{\sim}6.7{\times}10^4\;CFU/g$, which showed 2 log microbial reduction. After the 2nd washing step followed by ozone treatment, there was no difference in microbial number. The number of colifroms in the materials of fresh vegetable juice were $8.0{\times}10^3{\sim}3.5{\times}10^3\;CFU/g$ initially but showed $1.5{\times}10^2{\sim}3.0{\times}10^2\;CFU/g$ after the ozone treatment (1 log reduction). On the other hand, there was no changes in the contents of ascorbic acid, flavonoids, polyphenols, minerals (cadmium and lead) during all processes. In addition, no color changes were observed during washing process. Therefore, ozone treatment in the materials of fresh vegetable juice decreased the microbial numbers. Also, chemical characteristics of ozone treated sample were not different when compared with control.

녹즙 제조 시 미생물 생육 억제를 위한 유일한 공정은 세척처리 공정이므로 비가열 살균기술인 오존 처리기술을 이용하여 녹즙 원료들의 세척공정(정선 원료, 1차 세척, 오존처리 및 2차 세척) 중 미생물 및 주요 화학성분의 변화를 측정하였다. 정선 원료의 일반세균수는 $8.2{\times}10^5{\sim}5.0{\times}10^6\;CFU/g$으로 식품공전에서 제시한 105 CFU/g보다 높은 균수를 보여 위생화가 반드시 필요하였다. 그러나 1차 세척 후 오존처리 시 $4.7{\times}10^4{\sim}6.7{\times}10^4\;CFU/g$으로 약 2 log cycle의 감균 효과를 볼 수 있었으며 2차 세척에서는 큰 차이가 없었다. 녹즙 원료의 대장균군수는 $8.0{\times}10^3{\sim}3.5{\times}10^3\;CFU/g$이었으나 오존처리 시 $1.5{\times}10^2{\times}3.0{\times}10^2\;CFU/g$로 초기에 비하여 약 1 log cycle 정도의 감균 효과를 보였다. 한편 세척공정 중 ascorbic acid, flavonoid 및 polyphenol 화합물, 무기물(카드뮴 및 납)의 함량 변화는 유의적인 함량 변화를 볼 수 없었으며 색상차이도 없는 것으로 나타났다. 따라서 녹즙 원료의 위생화를 위한 오존처리 시 미생물 수를 감소시킬 수 있었으며 화학적인 변화는 없는 것으로 나타났다.

Keywords

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