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목철균,이상기,Mok, Chul-Kyoon,Lee, Sang-Ki 한국식품과학회 1999 한국식품과학회지 Vol.31 No.1
저장 중 쌀의 수분이동에 따른 균열현상을 구명하고 균열을 발생시키는 임계조건을 산출하여 이를 토대로 쌀의 균열을 방지할 수 있는 저장조건을 확립하였다. 쌀의 평형상대습도와 노출된 환경의 상대습도의 차이$({\Delta}ERH)$가 적을 때는 균열이 발생하지 않은 반면, 그 차이가 임계치보다 클 때는 균열이 발생하였으며 균열의 발생정도는 쌀의 평형상대습도와 환경의 상대습도의 차이가 클수록 심하게 나타났다. 탈습환경 하에서는 불규칙한 형상의 균열이 쌀알의 외부에 발생하였으며 흡습환경 하에는 규칙적인 형상의 균열이 쌀알의 내부에 축방향과 수직방향으로 방사상으로 발생하였다. 노출시간별 균열발생 패턴을 Weibull함수에 의거하여 해석한 결과, ${\Delta}ERH$가 클수록 균열속도상수가 증가하였다. 동할미 발생률은 In$({\Delta}ERH)$에 따라 직선적으로 증가하였으며, 임계 균열발생 상대 습도차(critical crack-inducing ${\Delta}ERH$)는 탈습시 $11.3{\sim}16.4%$, 흡습시 $10.8{\sim}17.1%$의 값을 보였다. 실험결과를 토대로 수분함량 및 수분활성도 별 쌀의 안전저장 상대습도를 나타내는 diagram을 제시하였다. Cracking of rice caused by moisture migration during storage under different relative humidity conditions was investigated for the establishment of safe storage condition of rice. Rice was cracked when a large difference in equilibrium relative humidity $({\Delta}ERH)$ between the rice and the environment was present. External and internal cracks were generated as the results of moisture desorption and adsorption, respectively. The external cracks by moisture desorption generated in all directions and shaped irregularly, while the internal cracks by moisture adsorption did in radial direction and showed a typical shape. The cracking trend could be analyzed by the Weibull function, and the cracking constant increased with ${\Delta}ERH$. The frequency of cracked rice increased linearly with In $({\Delta}ERH)$. The critical crack-inducing ${\Delta}ERH$ was $11.3{\sim}16.4%$ during desorption and $10.8{\sim}17.1%$ during adsorption. A diagram for the safe storage of rice was developed with respect to the initial moisture content and the water activity of rice.
Kinetic Study on the Gelatinization of Barley Starch
목철균,이상효,남영중,민병용,Mok, Chul-Kyoon,Lee, Sang-Hyo,Nam, Young-Jung,Min, Byong-Yong Korean Society of Food Science and Technology 1985 한국식품과학회지 Vol.17 No.6
$60{\sim}95^{\circ}C$의 온도범위에서 보리전분희석액의 호화를 속도론적으로 조사분석하였다. 보리전분의 호화속도는 온도의존성이 컸으며 $90^{\circ}C$ 이상에서의 호화는 1단계의 1차반응에 속하였으나 $85^{\circ}C$ 이하에서는 2단계의 1차반응으로 구성됨을 확인하였다. $85^{\circ}C$ 이하의 온도에서 반응제 1단의 반응속도는 반응제 2단의 경우에 비하여 큰값을 나타내었다. 반응제 1단의 활성화에너지는 31.93 Kcal/g mole 이었으며 반응제 2단의 활성화에너지는 $75^{\circ}C$ 이상에서는 78.49 Kcal/g mole, $75^{\circ}C$ 이하에서는 23.41 Kcal/g mole 이었다. The gelatinization kinetics of barley starch in dilute system (1% w/v concn.) at the temperature range of $60{\sim}95^{\circ}C$ was investigated. The gelatinization rate was extremely temperature dependent. The gelatinization at the temperature above $90^{\circ}C$ was an one step 1st order reaction throughout the gelatinization time, but that below $85^{\circ}C$ consisted of two stages which showed different reaction rates. The reaction rate of the 1 st stage was greater than that of the 2nd stage. The activation energy of the 1 st stage was 31.93 Kcal/g mole and those of the 2nd stage were 78.49 and 23.41 Kcal/g mole above and below $75^{\circ}C$, respectively.
스테인리스스틸 컵 내 Escherichia coli의 자외선 살균
목철균 ( Chul Kyoon Mok ),이남훈 ( Nam Hoon Lee ) 한국산업식품공학회 2009 산업 식품공학 Vol.13 No.2
자외선 살균소독기의 유효성을 검정하기 위하여 스테인리스스틸 컵 바닥에서 E. coli를 대상으로 살균력을 측정하고 살균패턴을 조사하였다. 스테인리스스틸 컵 바닥의 자외선 강도는 컵의 위치에 따라 큰 차이를 보였다. 중앙부에 놓인 컵의 바닥에서는 높은 자외선 강도를 보인 반면 외곽으로 갈수록 자외선 강도는 급격하게 약화되었으며, 이러한 편차는 상단 선반에서 가장 심하였고 중단 및 하단선반으로 갈수록 완화되었다. E. coli를 대상으로 한 스테인리스스틸 컵 바닥에서 살균효과는 컵 바닥의 자외선 강도와 살균시간에 비례하였다. 자외선에 의한 E. coli 살균패턴은 tailing을 수반하는 의사 1차반응으로 나타났으며 각 구간의 살균속도상수를 산출한 결과 초기 살균속도상수(K1)는 위치에 따라 큰 차이를 보인 반면 후기 살균속도상수(K2)는 위치에 따른 차이가 크지 않았다. 현장에서 자외선 살균소독기를 용이하게 사용할 수 있도록 일정 살균치를 얻는데 필요한 자외선 조사시간을 산출하는 방정식을 제시하였다. Ultraviolet (UV) is widely used as a sterilizing agent in restaurants and catering facilities in Korea. Efficacy of UV sterilizers (UVS) was investigated against E. coli on the inner bottom of stainless steel cups. UV intensity on the bottom of cups varied widely with the locations of cups in UVS, showing higher values at center while lower values at outskirts. The deviations in UV intensity were remarkable on top shelf, but alleviated as proceeded to middle and bottom shelves. Inactivation of E. coli was proportional to the UV intensity and treatment time, consequently to UV dose, and showed a pseudo-first-order kinetics with tailing. Initial inactivation rate constants (K1) deviated with the locations of the cups, while final inactivation rate constants (K2) showed comparable values. An equation for the calculation of the proposed UV treatment time was suggested.
목철균 ( Chul Kyoon Mok ),이태훈 ( Tae Hoon Lee ) 한국산업식품공학회 2011 산업 식품공학 Vol.15 No.4
A dielectric barrier discharge plasma (DBDP) treatment system was fabricated and the optimum operating conditions for the plasma generation were determined in order to explore the potential of cold plasma as a non-thermal processing technology. The microbial inactivation performance of the system was also evaluated against Staphylococcus aureus. The system consisted of power supply, transformer, electrode assembly and sample treatment plate. The input power was 220 V single phase AC and amplified to 10.0-50.0 kV on a transformer. A pulsed sine wave of frequency 10.0-50.0 kHz was introduced to the electrode embedded in ceramic as a dielectric barrier material in order to generate plasma at atmospheric pressure. Higher currents and consequently greater power were required for the plasma generation as the frequencies increased. A homogeneous and stable plasma was generated at currents of 1.0-2.0 , and frequencies of 32.0-35.3 kHz. The optimum electrode-gaps for the plasma generation were 1.85 mm without loaded samples. More power was consumed as the electrode-gaps increased. The practically optimum electrode- gap was, however, 2.65 mm when samples were treated on slide-glasses for microbial inactivation. The maximum temperature increase after 10 min treatment was less than 20oC, indicating no microbial inactivation effect by heat and thereby insuring a non-thermal method. The DBDP inactivation effect against Staphylococcus aureus increased linearly with treatment time up to 5 min, but plateaued afterward. More than 5 log reduction was achieved by 10 min treatment at 1.25 A.