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우유와 유제품의 살균기술

Pasteurization of dairy products

  • 최효수 (고려대학교 식품생명공학과) ;
  • 오남수 (고려대학교 식품생명공학과)
  • Choi, Hyosu (Department of Food and Biotechnology, Korea University) ;
  • Oh, Namsu (Department of Food and Biotechnology, Korea University)
  • 투고 : 2020.08.12
  • 심사 : 2020.08.28
  • 발행 : 2020.09.30

초록

Milk pasteurization is used to destroy harmful bacteria present in the raw milk for improvement of the keeping quality of dairy products. It is generally carried out in dairy industries as the heating process of raw milk in properly designed and operated equipment to a specific temperature for a specified a specified period. However, thermal processing may cause quality changes in milk as well as significant nutritional losses. Hence, many researchers have started work to design alternative strategies to produce safer foods with minimal thermal treatments for pasteurization. Therefore, the present paper shows the current status of commercial pasteurization system of dairy products in korean industry and the research efforts carried out by researchers on novel milk pasteurization system that could be an alternative to traditional thermal processes for maintaining the freshness of dairy products.

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참고문헌

  1. Alirezalu K, Munekata PES, Parniakov O, Barba FJ, Witt J, Toepfl S, Wiktor A, Lorenzob JM. Pulsed electric field and mild heating for milk processing: a review on recent advances. J. Sci. 100: 16-24 (2019)
  2. Fox PF, MacSweeney PLH. Dairy chemistry and biotechnology. Blackie Academic Professional. London (1998)
  3. Goyal A, Sharma V, Upadhyay N, Sihag M, Kaushik R. High pressure processing and its impact on milk proteins: A Review. 2: 2319-3409 (2019)
  4. Jung J-W, Jung J, Mim TS, and Oh S. Effects of heat treatment on the nutritional quality of milk IV - effects of heat treatment on the physical and nutritional properties of milk protein. J. Milk Sci. Biotechnol. 35(4): 270-285 (2017) https://doi.org/10.22424/jmsb.2017.35.4.270
  5. Kang S-H, Shin YK. Recent research on and development of thermal and pulsed electric field systems for pasteurization of milk and milk Products. Korean J. Dairy Sci. Technol. 32: 31-36 (2014)
  6. Lee J, Choi E-J, Choi SY, Jeon GY, Jang J-Y, Oh YJ, Lim SK, Kim T-W, Lee J-H, Park H W, Kim HJ, Jeon JT, Choi H-J. Effects of high pressure treatment on the microbiological and chemical properties of milk. Korean J. Microbiol Biotechnol. 42: 267-274 (2014) https://doi.org/10.4014/kjmb.1405.05007
  7. Oran L. Dairy Knowledge Portal. sterilization. : https://www.dairyknowledge.in/article/sterilization, Accessed Aug 7, 2020.
  8. Park JG, Lee YJ, Yoon JY, Om AS. Impact of thermal and nonthermal technologies in milk processing. J. Milk Sci. Biotechnol. 40: 223-229 (2015)
  9. Pereira PC. Milk nutritional composition and its role in human health. Nutrition. 30: 619-627 (2014) https://doi.org/10.1016/j.nut.2013.10.011
  10. Silvestre D, Miranda M, Muriach M, Almansa I, Jareno E, Romero F.J. Antioxidant capacity of human milk: effect of thermal conditions for the pasteurization. Acta Paediatr. 97: 1070-1074 (2008) https://doi.org/10.1111/j.1651-2227.2008.00870.x
  11. aTFIS 식품산업통계정보. 식품시장 뉴스레터-우유 (2020)
  12. e-나라지표. 식품의약품안전처. 식중독 신고 건수 및 환자수 (2019)
  13. 문백년. The food&beverage news. 식품의 가열살균과 비가열살균-c.s칼럼(311) (2020). https://www.thinkfood.co.kr/news/articleView.html?idxno=87529, Accessed Aug 3, 2020.
  14. 박지용. 21세기 식품가공 신기술의 현황과 전망 (2010)
  15. 식품의약품안전처, 5년간 국내 식중독 발생현황 (2019)
  16. 한국과학기술정보연구원. 식품의 살균 기술 최근 동향 (2005)