• Korean journal of food and cookery science
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• v.23 no.1 s.97
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• pp.50-61
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• 2007

The aim of this study was to determine the optimum amount of astringent persimmon concentrate to add to rice(polished rice, brown rice, and black rice) flour in the preparation of GamJeopyeon (persimmon rice cake). The moisture contents of polished rice, brown rice, and black rice persimmon Jeolpyeon were 50.37${\sim}$51.65%, 49.52${\sim}$52.44%, and 48.82${\sim}$51.87%, respectively. With increasing astringent persimmon content, the L value of all of the Jeolpyeon decreased, whereas the values of polished rice and brown rice persimmon Jeolpyeon increased. The b values of polished rice, brown rice, and black rice persimmon Jeolpyeon were the highest at addition levels of 8%, 4%, and 12%, respectively. In the mechanical textural evaluation, the hardness of polished rice and brown rice, persimmon Jeolpyeon decreased with increasing astringent persimmon concentrate content during storage time, and was the highest at the 0% addition level in black rice Jeolpyeon after 2 days storage. In the sensory evaluation, the overall acceptability of polished rice, brown rice, and black rice persimmon Jeolpyeon was higher at 4, 8, 12, and 16% compared to the 0% addition level. According to the above study. Jelopyeon made with the addition of up to 16% astringent persimmon concentrate to polished rice, brown rice, and black rice flour was found to be the best recipe in terms of overall acceptability and textural qualities.

• Culinary science and hospitality research
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• v.14 no.2
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• pp.273-285
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• 2008

The purpose of this study was to find appropriate processing condition of astringent persimmon and persimmon leaf granular tea. Under the condition of 4 hour extraction and $50^{\circ}brix$, extraction yield and concentrating of astringent persimmon were the greatest. Under the condition of 2 hour extraction and $7^{\circ}brix$, extraction yield and concentrating of persimmon leaf were the greatest. The optimum condition of granular tea with astringent persimmon and persimmon leaf added was the best in astringent persimmon concentrate of 16% and persimmon leaf concentrate of 4%. It had the best taste after the condition in a brix value of 16.15% and a pH of 5.57. The L-value of chromaticity was -79.13, a-value 2.27, and b-value 2.41. In the sensory properties correlation analysis of astringent persimmon and persimmon leaf granular tea, sweet taste, color acceptability, odor acceptability and taste accept-ability were positively significant correlation with most sensory properties. However, astringent taste was no significant correlation with sensory acceptability. Bitter taste and after taste were negatively significant correlation with most sensory properties.

• Korean journal of food and cookery science
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• v.21 no.5
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• pp.709-716
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• 2005

The aim of this study was to determine the optimal cooking conditions for astringent persimmon concentrates. With increasing time of concentration, the moisture contents and L-, a- and b-values all decreased, whereas the brix level and viscosity increased. The crude protein, fiber and ash increased and the vitamin C decreased by concentrating. The pH was the lowest at 23 hrs of boiling concentration. With longer boiling concentration time, the fructose, glucose, and sucrose levels increased but the maltose level decreased. The DPPH radical scavenging effects of astringent persimmon concentrates were more than 92%. The total phenolics, flavanol tannin, leucoanthocyanin, and chlorogenic acid levels increased with longer boiling concentration time. In the sensory evaluation of the astringent persimmon concentrates, overall acceptability was the best at the 23-hr boiling concentration. From the above results, the 23-hr boiling, astringent persimmon concentrates could be useful for cooking in terms of obtaining the high amounts of phenolic compounds as functional compounds and overall acceptability.