• The Korean Journal of Food And Nutrition
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• v.18 no.3
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• pp.161-167
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• 2005

This study was conducted to examine the possibility of improvement effect in Takju mash added with ${\alpha}G-Hesperidine$ on the second stage mash. Alcohol was highly generated in comparison with the control on fermentation time in case of the ${\alpha}G-Hesperidine$ on the second stage mash. Reducing sugar was also highly produced after 2 days on the second stage, and amount of reducing sugar was indicated to be decreased between $4\~6$ days. Total acidity was shown not to be practically changed after 2 days in mash added with ${\alpha}G-Hesperidine$ on the second stage in comparison with the control. Fusel oil produced from mash added with ${\alpha}G-Hesperidine$ was less generated in comparison with the control. Yeast growth on the mash added with ${\alpha}G-Hesperidine$ was revealed to be highly in comparison with the control through fermentation periods. Precipitation velocity of suspension in mash added with ${\alpha}G-Hesperidine$ was shown to be 1.5 times lower than that of the control. Precipitation amount in mash added with ${\alpha}G-Hesperidine$ was not nearly changed on the storage time. The astringency and bitterness were slightly decreased, while on the other turbidity and refreshing were increased in mash added with ${\alpha}G-Hesperidine$. In general overall preferences was indicated to be fully satisfied in mash added with ${\alpha}G-Hesperidine$ in comparison with the control. Nasty smell of Takju added with ${\alpha}G-Hesperidine$ was recognized after 6 days during storage.

• Journal of the Korean Society of Food Science and Nutrition
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• v.32 no.6
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• pp.847-854
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• 2003

In general cooked rice would be used as a major raw material for making Takju. In this case quality, taste and storage time of Takju were not fully satisfied. Fermentation conditions for Takiu mash were examined by using the germed brown rice in this study. In case of the germed brown rice on 2nd stage mash, alcohol was slowly generated in comparison with the cooked rice. Reducing sugar was slowly produced and the amount of reducing sugar was low. The sugar content was created at a uniform rate. The pH was shown to be higher in mash of the germed brown rice than that of the cooked rice. Acidity change showed a similar inclination to pH change. The degree of yeast growth on the mash of the germed brown rice was revealed to be slightly lower than that of the cooked rice. Temperature of mash was kept to be constant after 3 days from fermentation. Fusel oil produced from the mash of the germed brown rice was less gernerated in comparison with the cooked rice. Amount of amino acid in case of the germed brown rice was indicated to be higher. Takju made with the germed brown rice was shown to be 1.3 times in overall taste, 1.5 times in refreshing as compared with Takju made with the cooked rice. However there are no differences between them in flavor and color of Takju. In overall acceptance Takju made with the germed brown rice was shown to be 1.3 times as compared with Takju made with the cooked rice. In conclusion the germed brown rice was expected to be able to be better in Takju quality.

• Applied Biological Chemistry
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• v.16 no.2
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• pp.85-93
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• 1973

These experiments were carried out to study influences of the kind of yeasts and of brewing condition on fermentation of Takjoo mash. The results obtained were as follows: 1. Kind of yeasts and the number of yeasts in mash. When the first stage mash was fermented at $20^{\circ}C$ for $1.5{\sim}2.5$ days and at $25^{\circ}C$, $30^{\circ}C$ for $1{\sim}2days$, in the second stage mash that was fermented at high temperature, the number of yeasts was less as compared with the case of fermentation at low temperature, but the living yeasts number of Takjoo yeast strain Dm-1 was more than those of sake yeast, strain No. 7. 2. Kind of yeasts and composition of ripened mash. 1) In the secondstage mash that was fermented at high temperature($30{\sim}35^{\circ}C$), alcohol percentage of ripened mash using the selected Takjoo yeasts (strains: Dm-1, Y-1) was remarkably higher than the case of another yeasts (strains: No.7, No.6, No. 396, No. 1). 2) Acidity of mash had a little differences between strain Dm-1 and strain No. 7. 3) In the second stage mash that was fermented at high temperature ($30{\sim}35^{\circ}C$), the amount of Formol-N using strain Dm-1 was remarkably less than strain No.7. 3. Brewing condition and alcohol percentage of mash. 1) The fit amount of wheat bran Kuk addition per material was 3 percentage and it was adequate to use the mixture of wheat flour Kuk 20 percentage and wheat bran Kuk 1-2 percentage. 2) Though brewing concentration of the first stage mash was duiluted by twice of general brewing concentration, the yeast reproduction was normal. 3) In addition of wheat flour $80{\sim}140g$ per 180ml water, alcohol percentage of the mash increased almost propotionally according to the increase of the amount of wheat flour. 4) It was recognized that three stage brewing was superior in method to two stage brewing at present.

• The Journal of the Korea institute of electronic communication sciences
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• v.7 no.4
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• pp.707-714
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• 2012

After a single-stage, second-order, multiple-feedback ${\Delta}-{\Sigma}$ modulator and a two-stage, second-order MASH ${\Delta}-{\Sigma}$ modulator were analyzed and simulated using Simulink and Matlab and their characteristics were compared, the following result was obtained: 1) The two ${\Delta}-{\Sigma}$ modulators do not have group delay distortion. 2) The characteristics of the noise shaping are nearly identical. As a result of the noise shaping, the power spectral densities have slope of 40 dB/dec. 3) There was no spurious tone. 4) The input range of the two modulators is from -1 to +1 in common. 5) Because the output of the two-stage MASH modulator is 2-bits (4-levels), design of frequency dividers and charge pumps of PLL are more demanding.

• The Korean Journal of Food And Nutrition
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• v.19 no.3
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• pp.288-295
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• 2006

This study was conducted to examine the possibility of improvement effect in suppression of precipitation and nasty smell creation in Takju mash. First of all, gum shown to be lowest precipitation velocity was selected and this was applied to the fermentation of Takju mash for comparing with the control in terms of fermentation aspects and various qualities of Takju mash. Precipitation amount and precipitation velocity of suspension in Takju mash added with carrageenan was shown to be the lowest than that of others. Compared with the control, alcohol was highly generated in Takju mash added with carrageenan, especially between two and four days. Total acidity was shown to be highly increased until 2 days in Takju mash and thereafter to be slightly increased. Takju mash added with carrageenan was shown to be lower on the second stage than the control. Fusel oil produced from mash added with carrageenan was 0.046${\sim}$0.113${\mu}$l/ml and mash added with carrageenan generated less fusel oil than the control by 1.6${\sim}$3.2 fold. Yeast growth on the mash added with carrageenan was revealed to be helpful during fermentation periods. In general, sensory characteristics of Takju mash were shown to be more superior in mash added with carrageenan than in other samples. While nasty smell produced from a sample without gums was perceived after 2 days of Takju mash storage, nasty smell of Takju mash added with carrageenan was recognized after 6 days during storage. In conclusion, precipitation of suspension and nasty smell production in Takju mash were found to be suppressed by addition of carrageenan during Takju fermentation.

• Applied Biological Chemistry
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• v.16 no.2
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• pp.78-84
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• 1973

The strains of 297 yeasts were isolated in TakJoo mashes of 12 breweries not using the cultivated yeast and then brewing test with each yeast were carried out. The strains of 7 yeasts that have high fermentative ability among the isolated strains were selected and identified. The results obtained were as follows: 1) In the brewing test with the isolated yeasts of each brewery, average alcohol percentage of each mash had a little differences as $13.20{\sim}15.20$ percentage. 2) In fermentative lest, the isolated yeasts from the first stage mash and from the second stage mash showed t little differences in the average alcohol percentage of mash. 3) The fermentative test using the isolated yeasts based on TTC stain had at little differences. 4) Among 7 strains selected, strains: Dm-1, Dm-2, Y-1, and T-1 appeared TTC pink yeast; strsins:C-1, C-2 and Gs-1 appeared TTC red one. 5) It was identified that strains: Dm-1, Y-1, C-1, C-2 and T-1 were Sac. cerevisae; the strain Gs-1 were Sac. pretoriencis; strain D-2 were Sac. rouxii.