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금준석,한억,-- 한국조리과학회 1994 한국식품조리과학회지 Vol.10 No.2
Whole, peeled sweetpotatoes were subjected to four different processes: 15 min microwave heating followed by 15 min baking (1), 90 min baking (2), 15 min microwave heating (3), and 15 min boiling followed by 15 min microwave heating (4). Samples of green and cured roots were used in the study. Scanning electron photomicrographs revealed that cured roots contained larger numbers of starch granules in the parenchyma cells than green roots, most of them compounded. The starch in cooked green roots was gelatinized while for cured roots it was mostly hydrolyzed into dextrins and sugars. Starch in process (3) roots was mostly gelatinized while in process (1) and process (2) roots gelatinized starch appeared in little quantity, thus it was primarily converted to dextrins and sugars. The process (4) resulted in little conversion of starch. The process (1) product resulted in a similar product to the process (2) product.
금준석,이상효,이현유,김길환,김영인,Kum, Jun-Seok,Lee, Sang-Hyo,Lee, Hyun-Yu,Kim, Kil-Hwan,Kim, Young-In 한국식품과학회 1993 한국식품과학회지 Vol.25 No.5
Two different methods (Sieve shaker, Elzone particle size analyzer) were used to investigate rice flour particle size obtained by various milling method. Results of Elzone particle size analyzer were more effective than Sieve shaker in determining particle size, and the distribution of particle size of rice flours was affected by the type of the milling methods used. A rice flour, prepared in a Pin mill had a particle size range of $60{\sim}500$ mesh, and 30.38% of the sample was in the particle size range $200{\sim}270$ mesh. A rice flour, prepared in a Colloid mill had a particle size range of $40{\sim}500$ mesh and more of flour particles appeared in the range $140{\sim}200$ mesh than any other particle size. A rice flour, prepared in a Micro mill had a particle size range of $140{\sim}500$ mesh, and 41.62% of the sample was in the particle size range over 500 mesh. A rife flour, prepared in a Jet mill had a finer flour particle size was over the particle size range 500 mesh. The finer rice flour gave the highest L value and the lowest a value. The wet-milled flour particles were observed as a cluster of starch granules and the particles of rice flour (dry-milling) were observed as fragment of rice grains. Scanning Electron Photomicrographs revealed that visual differences in structure between milling methods, and similar results with Elzone particle size analyzer method in particle size. Sieve shaker와 Elzone particle size analyzer에 의한 두 가지 방법으로 제분방법에 따른 입자크기를 조사하였다. 제분방법별로 제조한 쌀가루의 입도분포를 측정한 결과 입자크기는 제분방법에 따라 영향을 받았으며 표준망체를 이용한 Sieve shaker 방법보다 Elzone particle size analyzer를 사용한 방법이 정확도가 우수하였다. 입도분포를 측정한 결과 Pin mill의 경우 $200{\sim}270$mesh가 30.38%으로 가장 많았고 $60{\sim}500mesh$의 분포도를 가졌다. Colloid mill은 $140{\sim}200mesh$가 가장 많았으며, $40{\sim}500mesh$의 분포도를 가졌다. Micro mill은 500mesh 이상이 41.62%로 가장 많았고 $140{\sim}500mesh$의 분포도를 보여주었다. Jet mill은 500 mesh 이상의 분포도로 입자크기가 가장 미세하였다. 또한 미세한 입자일수록 L간과 a값이 증가하였다. 쌀가루의 집합체를 살펴본 결과 습식제분은 분리된 쌀가루의 집합체형태로 구성되어 있고 건식제분은 분활된 조직체로 구성되었다. 전자주사현미경은 Elzone particle size analyzer 방법과 같은 입자분포도를 나타내었고 제분방법에 따라 구조의 특성을 보여주었다.
수삼의 마이크로파 진공 건조 후 사포닌 조성 및 미세구조의 변화
금준석,박광장,이창호,김용환,Kum, Jun-Seok,Park, Kwang-Jang,Lee, Chang-Ho,Kim, Yong-Hwan 한국식품과학회 1999 한국식품과학회지 Vol.31 No.2
마이크로파 진공 건조 방법을 달리하여(3분 건조-2분 정지를 반복하여 24시간 건조하는 방법 ; MWVD 1,5분 건조-2.5분 정지를 반복하여 24시간 건조하는 방법 : MWVD2, 열풍 건조기를 이용하여 $45^{\circ}C$에서 12시간 예비 건조 후 마이크로파 건조기를 이용하여 3분 건조-2분 정지를 반복하여 12시간 건조하는 방법 : HMWVD1, 5분 건조-2.5분 정지를 반복하여 12시간 건조하는 방법 : HMWVD2) 인삼을 건조한 후 품질특성을 검토하였다. 마이크로파 진공 건조 후 수축현상 없이 수분활성도 0.54, 수분함량 16.82%까지 건조되었다. 건조 후 일반성분의 차이는 조단백질, 회분은 차이가 없었으나 조지방의 함량은 감소되었다. 유리당 조성에서 포도당(glucose)은 증가한 반면 자당(sucrose)은 감소하였다. $Ginsenoside-Rb_1$ 및 Rc는 건조 후 감소하였으며 $Ginsenoside-Rg_1$의 함량은 MWVD2와 HMWVD2 처리구에서 각각 0.15, 0.17로 MWVD1와 HMWVD1 처리구보다는 높은 함량을 나타내었다. 미세구조 관찰에서 MWVD1 처리구가 건조 후 가장 치밀한 내부 구조를 나타내었다. Changes in saponin composition and microstructure of ginseng by microwave vacuum drying were determined. Korean fresh ginsengs were subjected to four different processing : 3 min microwave vacuum drying and 2 min holding-24 hrs drying (MWVD1), 5 min microwave vacuum drying and 2.5 min holding-24 hrs drying (MWVD2), 3 min microwave vacuum drying and 2 min holding-12 hrs drying after hot air drying for 12 hrs drying at $45^{\circ}C$ (HMWVD1), 5 min microwave vacuum drying and 2.5 min holding-12 hrs drying after hot air drying for 12 hrs at $45^{\circ}C$ (HMWVD2). The water content was decreased until 16.82% without shrinkage and water activity was 0.54 after microwave vacuum drying. The lipid content was decreased after microwave vacuum drying (MVD). Glucose was increased after MVD while sucrose decreased. Ginsenoside-Rb1 and ginsenoside-Rc were decreased after MVD. Ginsenoside-Rg1 for MWVD2 and HMWVD2 was higher than that of MWVD1 AND HMWVD1. MWVD1 AND HMWVD1 dried ginsengs showed a more compact structure than the HMWVD2 and HMWVD2 ginsengs.