• Journal of the Korean Society of Food Culture
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• v.20 no.4
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• pp.426-432
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• 2005

To develop a low-temperature and long-term fermented Baechu kimchi, kimchi was prepared according to a recipe of specific ratio with major and minor ingredients and adjusted its final salinity to 3.7%. Baechu kimchi fermented at $15{\pm}1^{\circ}C$ 24 hours and transferred them into in a refrigerator only for kimchi, and then continued to ferment at $-1{\pm}1^{\circ}C$ for 30 weeks to make a low-temperature and long-term fermented kimchi. The initial cutting force of 8.45kgf dropped gradually and reached to 5.19kgf after 30 weeks of fermentation. In compression force the gumminess, hardness and chewiness of Baechu kimchi showed a great decrease during the fermentation, but the springiness and adhesiveness increased in slight. Correlation coefficient between the chewiness and gumminess was the highest(r=0.879). In spite of sensory evaluation scores of the appearance and texture were the highest on 0 day of fermentation, the saltiness was evaluated the worst to eat. Scores for sourness and carbonated flavor were the best during 18 to 22 weeks of fermentation, and overall acceptability was the best after 14 weeks of fermentation. Very high correlation coefficients were revealed between the sourness and carbonated flavor(r=0.813) and between the sourness and off-flavor(r=0.805). According to these results we concluded that the best low-temperature and long-term fermented Baechu kimchi prepared with 3.7% salinity and fermented at $15{\pm}1^{\circ}C$ for 24 hours and then transferred into a kimchi refrigerator at $-1{\pm}1^{\circ}C$, and completed the fermentation for 18 weeks.

• Proceedings of the SAREK Conference
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• 2004.06a
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• pp.47-47
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• 2004

• Food Engineering Progress
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• v.23 no.4
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• pp.270-277
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• 2019

Commercial direct refrigerators have good energy efficiency, but are difficult to use for supercooled storage due to their large temperature deviation. Placing insulators and conductors inside the refrigerator could reduce these temperature deviations to within 0.3 degrees, allowing for the supercooled storage. The supercooled storage of salted Chinese cabbages during ten weeks was progressed to compare the other low temperature storages. The nucleation temperatures of salted Chinese cabbage were around -2.5℃ and the freezing points were around -0.4℃, so -2℃ was selected for the supercooled storage. The growth rate of lactic acid bacteria and yeast at -2℃ storage was lower than that at 2℃ storage. The reducing sugar was maintained higher due to the growth rate of lactic acid bacteria. The supercooled storage had an effect of delaying the fermentation of the salted Chinese cabbage, which may have the effect of delaying the fermentation of kimchi. This enhancement method of the direct refrigerator was effective for the supercooled storage and would be promising for commercial use.

• Journal of the Korean Society of Food Culture
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• v.30 no.1
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• pp.1-7
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• 2015

Traditional cuisine reflects cooking traditions shaped by political, economic, social, cultural, and environmental conditions characterized by authenticity and uniqueness. Traditional food is not only a part of our cultural heritage but also a knowledge resource. Application of food science and technology in Korean traditional foods was reviewed from six points of view, including food preservation, fermentation, changes in food materials, utilization of food functionality, and packaging and development of cooking appliances. Books from disparate times were chosen in order to cover a wide range of materials from the past to the present. Food preservation and fermentation techniques were applied to various food materials. Combination of science and skills contributes to the accessibility of diverse food materials and better quality foods. Koreans use assorted and resilient plants, which have an abundance of functional substances such as food materials. Among cooking appliances, microwave oven and refrigerator are the most innovative products with huge influences on food eating patterns as well as lifestyle. Packaging effectively reduces post-harvest preservation losses, and better packaging has technical improvements for storage and distribution. Kimchi was chosen as an example in order to study technology from the past to the present. Availability of Kimchi cabbage, enrichment of functional ingredients, identification of useful microbial species, standardization of recipe for commercialization, prevention of texture softening, introduction of salted Kimchi cabbage and Kimchi refrigerators, and packaging were reviewed. The future of traditional foods in the market will be competitive. First, traditional foods market should be maintained to protect the diversity of food materials. Secondly, tailored foods for individuals should be considered using foods with functional properties. Information on health benefits would provide insights into health and traditional food products. Third, speedy transfer of new technology to the traditional food industry is needed to ensure food quality production and new opportunities in the market. Fourth, safety of traditional foods should be ensured without sacrificing the essential characteristics of culturally important foods. Improvement of logistics, distribution, and facility should be carried out. As demand for convenience foods increases, traditional foods should be developed into products.

• Korean journal of food and cookery science
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• v.15 no.4
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• pp.319-326
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• 1999

A survey on the traditional management of dietary life, seasonal diets, and frequency of using traditional fermented foods, was conducted from six hundred forty housewives living in rural areas of Yosu and Yocheon district, and the following results were obtained. 1. Majority of the subjects was in the range of 50-59 years old (43.1%), elementary schooling in education (38.1%), composition of family with parents and children (57.5%) with 3-4 family members (40.6%), and annual income of 5-8 million Won. 2. Korean style-house (36.7%), modernized kitchen (58.5%), and liquid fuel (69.7%) held the majority of the living environment. 3. Most of the households possessed refrigerator (98.9%), kitchenette range (98.4%) and electric rice pot (97.9%). 4. Access to traditional dishes was mostly prompted through elders or friends (84%). Preparing a meal was regarded to be a troublesome duty (41.5%). Husband's preference was the major factor for the meal preparation (53.7%) and about 30 min was spent for preparing dinner (53.7%). 5. Cooked rice was a main staple (99.5%) while three kinds of Kimchi (55.3%) were served as prime side dishes in the diets. Most Kimchi(94.7%) was prepared at home. To this basic menu, two or three side dishes were added at breakfast (77.2%), lunch (76.1%), and dinner (65.4%). MSG (mono-sodium glutamate) was consumed by 62.2% of the households. 6. Most rural households prepared traditional dishes on the traditional holidays in lunar calendar including New Year's Day (98.9%), First Full Moon of The Year (81.4%), and Autumn Full Moon (96.8%). 7 Traditional fermented foods prepared at home comprised Kimchi (87.2%), soybean paste (75.5%), red pepper soybean paste (73.9%), and soy sauce (70.7%).

• Journal of the Korean Society of Food Culture
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• v.16 no.5
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• pp.431-441
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• 2001

To develop the low-temperature and long-term fermented kimchi, kimchi was prepared according to the recipe of a specific ratio of major and minor ingredients and adjusted its salinity to 3.7%. Prepared kimchi fermented at $15{\pm}1^{\circ}C$ for 24 hours and transferred and fermented in a refrigerator only used to make low-temperature and long-term fermented kimchi at $-1{\pm}1^{\circ}C$ for 30 weeks. During 30 weeks of fermentation the changes in physicochemical and microbiological properties of low-temperature and long-term fermented kimchi were studied. The initial pH of 6.47 decrease gradually and dropped to pH 4.0 after 14 weeks of fermentation, and then it maintained at same level. Acidity increased to 0.49% on 2 weeks of fermentation and kept at 0.47 $\sim$0.50% during 2 to 30 weeks fermentation. Salinity was slightly increased at early stage and started to decrease on 4 weeks of fermentation, and then it did not change. The change of reducing sugar content was closely related to the trend of pH change with a very high correlation coefficient(r =0.912). Lactic acid, citric acid, malic acid, succinic acid and acetic acid were major organic acids contained in low-temperature and long-term fermented kimchi. Vitamin C content decreased at initial stage of fermentation and then slightly increased up to the maximum of 22.3 mg% on 8weeks of fermentation. In color measurement, L value continued to increase during the fermentation and reached at the highest of 55.45 on 22 weeks of fermentation, and a and b values of 3.62 and 4.54 also increased to 31.26 and 37.32 on 30 weeks of fermentation, respectively. Total microbial count increased slowly from beginning and was the highest on 4 weeks of fermentation, and then began to decrease slowly. Count of Lactobacillus spp. was highest after 6weeks, but count of Lactobacillus spp. was highest on 2 weeks of fermentation, and then both showed a slow decrease. Yeast count wasn't increased until 4 weeks of fermentation and then increased rapidly to get the highest on 10 weeks of fermentation.

• The Korean Journal of Food And Nutrition
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• v.26 no.4
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• pp.945-951
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• 2013

Changes in fermentation properties and ornithine levels of Baechu Kimchi by storage conditions were investigated. After making and fermenting Kimchi at $15^{\circ}C$ for 32 hr (S1), 36 hr (S2), 40 hr (S3), 44 hr (S4), and 48 hr (S5) during the first 10 days of storage. The Kimchi samples are subsequently stored in the -$1^{\circ}C$ Kimchi refrigerator for up to 60 days. Changes in the pH values and lactic acid contents of S4 and S5 samples are slightly bigger than the S1, S2 and S3 samples which have no significance differences. According to lactic acid bacteria (LAB) number, all samples show the largest augmentation according to the number of Lactobacilli during the first 20 days of storage. After 20 days of storage, the S4 and S5 samples show larger accumulations of LAB than S1, S2 and S3 samples. The Weissella genus is predominated at the 40 day of storage in the S5 sample. Ornithine levels are increased up to 170mg per 100 g during the storage period of 40~50 days in the S5 sample. However, the increase of ornithine levels in S1, S2 and S3 samples is smaller than those of the S4 and S5 samples. These results indicate that the conditions of Kimchi fermentation, which is 48 hr at $15^{\circ}C$ before storage, is proved to be the most superior for ornithine levels within the Kimchi refrigerator.

• Journal of the Korean Institute of Rural Architecture
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• v.3 no.3
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• pp.23-34
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• 2001

The purpose of this study was to find out the design identity of the Korean kitchen space through out comparing life culture and user's needs of the rural kitchen space between Koreans and Americans. This research was done by the literature review and the empirical data collected through the questionnaire by mail in the state of Missouri, USA and the field survey in the province of Chonbuk, Korea. The American rural residents were 104 and the Korean were 100. The results were as follows. 1) The characteristics of the Korean rural food life were the making Kimchi, soy sauce and bean paste etc. and the preparing food for family events such as birthdays and holidays. They had need to be planned the second kitchen. 2) The characteristics were planned the Korean rural main kitchen to be equipped with another refrigerator for Kimchi, to be wider floor area and to be located near the living and the dining room. 3) The kitchen space also was not reflected on the aged's desire, but this factor will be important to be planned.

• Transactions of the Korean Society for Noise and Vibration Engineering
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• v.22 no.12
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• pp.1237-1242
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• 2012

No matter how low it might be, noise from home appliances in indoor environment cause displeasure for residents as it is produced nearby. Electronic goods including vacuum cleaner and washing machine generate high frequency noise, which interrupts TV-watching or conversations and cause noises between floors in apartment houses. In particular, refrigerators make constant noise late at night, hampering the study for exams and causing sleeplessness. Korea, despite the government's efforts to promote low-noise goods based on the noise test by corporation, there is a lack of standardization in the test method, test condition and measuring equipments. This is a major reason that lowers the reliability of low-noise products. At present, low-noise home appliances are certified with eco labeling in the nation but, only 7 brands of refrigerators, 4 brands of washing machines and 97 brands of air-conditioners obtained certification as of august, 2011. In addition, none of Kimchi-refrigerator and vacuum cleaner brands were approved as low-noise home appliances. This shows Korea's relatively underdeveloped market for low-noise products, which, in part, is because of the difficulties companies face in being certified with eco labeling as they should satisfy various requirements such as power-saving and eco-friendly design besides low-noise features. As a result, low-noise labeling for home appliances should be established for the revised noise and vibration management law and the study was carried out to establish low-noise labeling system for major noise sources including vacuum cleaner, washing machine, air-conditioner and refrigerator.

• Journal of the Korean Society of Food Culture
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• v.20 no.4
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• pp.468-475
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• 2005

To determine the effect of different fermentation level on the quality of Nabak Kimchi during storage, this study was carried by analysing the result of physico-chemical properties, microbiological characteristics and sensory evaluation of Nabak Kimchi stored up to 24 days. For the physico-chemical properties, pH, total acidity, reducing sugar, carbon dioxide contents, color values were investigated while for the microbiological characteristics, total microbial counts and lactic acid bacteria were studied. Nabak Kimchi products were fermented at six different level of temperature and time and stored in Kimchi refrigerator at $4^{\circ}C$ for 24 days. As the storage period increased, the pH values of LF15, SF25 and LF25 decreased rapidly after initial fermentation and the pH values of SF4, LF4 and SF15 increased slightly in the beginning and then decreased. total acidity increased as storage period proceeded. the amount of reducing sugar was 4.92mg/ml before fermentation and increased significantly and reached its maximum values then decreased. lightness and redness of Nabak Kimchi decreased as storage period became longer, but yellow of Nabak Kimchi increased during storage. Total microbial counts of SF25 and LF25 reached to the highest at the 6th day and total microbial counts of LF15 reached to the highest at the 12th day and then significantly decreased. However, total microbial counts of SF4, LF4 and SF15 continuously increased up to the 24th day. The number of lactic acid bacteria was similar to the phase of the change of total microbial counts.