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육류의 품질과 Time Temperature Integrator(TTI) 온도의존성에 대한 수학적 Simulation
박한조,심수동,민상기,이승주,Park, Han-Jo,Shim, Soo-Dong,Min, Sang-Gi,Lee, Seung-Ju 한국축산식품학회 2009 한국축산식품학회지 Vol.29 No.3
The temperature dependence of time temperature integrator (TTI) was investigated in terms of the Arrhenius activation energy (Ea) to determine TTI requirements to accurately predict meat quality during storage. Mathematical simulation was conducted using a numerical analysis. First, using Euler's method and MS Excel VBA, the TTI color change was kinetically modeled and numerically calculated under several storage conditions. From the TTI color variable profiles calculated from the storage time-temperature profiles, $T_{eff}$, which is a constant temperature representing the whole temperature profiles, was calculated. Upon predicting Pseudomonas spp. concentrations (one of the meat qualities) from $T_{eff}$, it was found that if $Ea_{microbial\;spoilage}=Ea_{TTI}$ be true, then Pseudomonas concentrations were calculated to be constant with the same TTI color values, regardless of time-temperature profiles, whereas if $Ea_{microbial\;spoilage}{\neq}Ea_{TTI}$ then Pseudomonas concentrations varied even with the same TTI color values. This indicates that each TTI color value represents its own fixed degree of meat quality, only if $Ea_{meat\;qualities}=Ea_{TTI}$.
쇠고기의 저장 중 R-index에 의한 부패취 발생시점과 Pseudomonas의 증식과의 비교 분석
변고은 ( Ko Eun Byeon ),박한조 ( Han Jo Park ),안수림 ( Soo Rim An ),홍광원 ( Kwang Won Hong ),민상기 ( Sang Gi Min ),정구용 ( Ku Young Chung ),원기훈 ( Kee Hoon Won ),이승주 ( Seung Ju Lee ) 한국산업식품공학회 2009 산업 식품공학 Vol.13 No.2
Detection of spoilage odors from beef during storage was investigated using sensory evaluation with R-index, and microbial assay for Pseudomonas. Beef samples were tested to measure the flavor changes, which were converted to R-index, and the Pseudomonas levels during storage. There was a steep rise in R-index until 36 hr after storage at 25℃, and then a gentle rise from 48 hr, whereas, there was a steady rise in R-index in the whole range of storage at 5℃. Detection time of spoilage odors according to R-index was statistically analyzed at α=5% to be at 30.92±3.47 hr and 169.80±11.27 hr for 25 and 5℃ storage, respectively, and analyzed at α=1% to be 34.80±4.01 and 176.41±9.89 hr for 25 and 5℃ storage, respectively. At the detection times of spoilage odors, the Pseudomonas levels were found to be almost the same, but less than 6-7 log CFU/g generally known as a standard level at occurrence of spoilage odors in beef. This indicated that some other factors than the Pseudomonas reactions could be associated with generation of spoilage odors.