초록
유탕면류의 HACCP(Hazard Analysis Critical Control Point) 시스템 구축을 위하여 유탕 공정-CCP(Critical Control Point)에 대한 미생물학적(Biological hazards)과 화학적(Chemical hazards) 한계 기준 설정을 위한 목적으로 수행하였으며, 경기도 이천 소재의 P사에서 실행하였다. 유탕공정은 각각의 시간과 온도 측정에 따라 미생물학적, 화학적 위해요소를 제거하거나 감소에 대해 실험하였다. 실험결과 Standard plate count와 식중독균은 유탕공정(Temperature : $145{\pm}10^{\circ}C$, Time : $75{\pm}30$ sec)에 의해 검출되지 않았다. 유탕공정에 의해 생성되는 화학적 위해 기준의 산가는 법적 기준치인 0.6보다 낮은 0.2 이하였다. 증숙실과 유탕실의 공중낙하균을 측정한 결과 3 CFU/mL, 3 CFU/mL 검출되었다. 따라서 유탕공정의 CCP-BC는 일반세균과 식중독균, 산화생성물 생성을 예방, 제거하는데 좋은 대안책이 될 것이다. 결론적으로 HACCP을 위해 유탕공정에 대한 한계기준설정, 모니터링방법, 개선조치, 검증방법, 교육, 기록관리가 필요하다고 생각된다.
The purpose of this study was to establish the critical limit at CCP (Critical Control Point) of HACCP (Hazard Analysis Critical Control Point) system for instant noodle and it was conducted at P company in Ichen(Gyeonggi-do), Korea. According to the CCP, Fried process were experimented to removal and decrease of microbiological and chemical hazards by measuring of each temperature and times. As a result, the standard plate count and pathogenic microorganism were not detected by fried processing (Temperature : $145{\pm}10^{\circ}C$, Time : $75{\pm}30$ sec). The acid value of chemical hazards produced by fried processing was able to manage, showed lower (0.2) than the legal limit (0.6). Air-borne bacterial examination results detected(3 CFU/mL, 3 CFU/mL) in the Frying Room and Steam Room. Therefore, the CCP-BC of fried process would be a great alternative to prevent and remove hazard analysis, such as general and pathogenic microorganism (E. coli O157:H7, B. cereus, Listeria monocytogenes, Salmonella spp, Sthaph. aureus etc), chemical hazard analysis. In conclusion, it suggested that HACCP plan was necessary for management standard and systematic approach in establishement of critical limit, solving the problem, method of verification, education and records management by fried processing.