• The Korean Journal of Food And Nutrition
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• v.13 no.5
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• pp.477-482
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• 2000

For the purpose of explaining the dewatering phenomena of potato slice soaked in concentrated solution three models were proposed. Earlier model cannot explain the dewatering phenomena of potato slice in concentrated solution because of limiting its condition which is necessary to build a model. Therefore other three models were suggested and a model based on Fick\`s second law of mass transport at infinite plate conditions and numerical analysis was test model for explaining dewatering phenomena of potato soaked in concentrated solution. Apparent diffusion coefficient of water could be readily estimated from model III, and it could explain adequately the difference of the dewatering phenomena of various soaking conditions.

• The Korean Journal of Food And Nutrition
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• v.12 no.6
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• pp.582-587
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• 1999

감자절편을 고농도용액에 침지하여 탈수시킨 결과 침지용액을 구성하는 용질의 분자량에 따라 탈수형태가 다르게 나타났다. 저분자 용액인 NaCl, PEG 400 용액에 침지한 경우 조직의 뒤틀림현상(cytorrhysis) 은 나타나지 않고 부피의 감소와 수분의 탈수현상이 나타난 반면 고분자 용액인 PEG 4000, PEG 6000용액에 침지한 경우 cytorrhysis 현상을 동반한 부피의 감소와 탈수현상이 나타났다. 초기 탈수속도는 저분자 용액에 침지시 더 빨랐으나 최종 탈수량은 고분자 용액에 침지시 더 컸다 고장성 용액에 감자절편을 침지시켜 탈수되는 기작이 두가지 압력(삼투압 분자압착력)에 의해 진행된다고 가정하고 모델을 제안하여 감정한 결과 제안된 모델은 고분자 용액에 침지시의 탈수현항을 설명하는데 적합하였다. 모델에서 구해진 압력인자(ΔP)와 농도인자(a)는 온도(T)와 농도(C) 의 함수로 표현되며 계수의 탄력성 검정결과 농도에 대한 의존성이 더 큰 것으로 나타났다.

• The Korean Journal of Food And Nutrition
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• v.19 no.4
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• pp.358-365
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• 2006

To study simultaneous water and solute transport kinetics during soaking in concentrated solution, the influence of the concentration and molecular weight of the solute(polyethylene glycol(PEG) and NaCl) in the soaking solution and the temperature on the water loss and solute gain rates were observed by using a model vegetable tissue(potato). When potato slices$(4cm{\times}4cm{\times}0.1cm)$ soaked in 60% PEG solutions, the water loss rate of the early phase decreased with increasing of the molecular weight of PEG from 200 to 6,000, while the final water loss increased with increasing the molecular weight of PEG and it reached to 80%. The cell wall of potato tissue was permeable to NaCl and PEGs of which average molecular weight is smaller than 400 but it was not permeable to PEG 600 and larger molecules. PEG which has average molecular weight below 600 induced plasmolysis and those above 600 induced cytorrhysis. The water loss rate of potato sample soaked in smaller molecular weight PEG solution was faster than those soaked in higher molecular weight PEG solution before cytorrhysis happened. The water loss rate was reversed after cytorrhysis happened. The volume change of potato within the first 60 minutes was larger in low molecular PEG solution but the final ratio of decreasing volume was larger in high molecular PEG solutions. In PEG 200 solution, the potato tissue was slightly shrinked without shape change. However, in PEG 4,000 solution, volume of potato was reduced significantly and potato tissue was twisted.