• Title/Summary/Keyword: Grinding soybean

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Extraction and Mixing Effects of Grape (Campbell) Seed Oil

  • Kang, Han-Chul;Min, Young-Kyoo;Hwang, Jong-Taek;Kim, Si-Dong;Kim, Tae-Su
    • Journal of Applied Biological Chemistry
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    • v.42 no.4
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    • pp.175-179
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    • 1999
  • Grape seed oil was extracted using different preparatory treatments as follows: (1) grinding, (2) grinding and roasting, (3) grinding and wet- roasting, (4) grinding, roasting, and wet-roasting, and (5) grinding, wet-roasting, and wet-roasting. The highest antioxidant activity was obtained from the sample with the method (2). Initial states of oxidation were similar except method (1) that showed more oxidized state, being P.O.V.8. Acid values were observed in the range from 1.42 to 1.89. The lowest acid value was found as 1.42 in method (1) and those of others were somewhat higher, indicating that heating process of roasting produced some free fatty acids. From the results of sensory evaluation, the best odor and taste were obtained from the methods (2) and (3). Repetitive procedure of wet-roasting, like method 5, caused some loss of flavor components and decrease in the sensory evaluation score. Addition of grape seed oil (method 2) to soybean and perilla oil at the level of 20% retained considerable antioxidant activities as much as 4.3 and 5 times, respectively, than 100% soybean or perilla oil stored for 12 weeks. When soybean or perilla oil was mixed with 20% grape seed oils, P.O.V. decreased to half of that of unmixed oils.

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A Study on the Effects of Processing Method on the Quality of Soybean Da-sik (콩가루 제조방법과 당의 종류와 양이 콩다식의 품질에 미치는 영향)

  • 정순애;조신호;이효지
    • Korean journal of food and cookery science
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    • v.13 no.3
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    • pp.356-363
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    • 1997
  • Soybean Da-sik was prepared with various soybean powder processing methods (roasting, steaming, and steaming followed by roasting) and sugar types (honey, oligo-sugar), and their sensory and physical characteristics were evaluated to determine the optimum preparation method. The results were as follows: 1. For Sample 1 (roasting soybeans for 30 min at 150$^{\circ}C$ and grinding), the best appearance of Da-sik was obtained when the content of honey was adjusted to 35 g, and the color with 30 g of oligo-sugar by sensory evaluation. The optimum texture was obtained with 40 g of honey, and the optimum chewiness with 30 g of honey Overall, the optimum quality was obtained with 35 g of honey, and oligo-sugar seemed to have less influence on the quality. In case of Sample 2 (four rounds of steaming and drying for 35 min), 40 g of oligo-sugar was found to exhibit the best quality, and honey was less effective. For Sample 3 (three rounds of drying followed by 15 min roasting at 150$^{\circ}C$), the best appearance and color were obtained with 35 g and 40 g of honey, respectively. The texture was most favorable with 40 g of honey, while the chewiness was best with 30 g of honey, suggesting 35 g of honey was the optimum level for Sample 3 soybean powder than oligo-sugar. 2. The springiness, gumminess, hardness and chewiness measured by a texture analyser were highest with Sample 1 containing 30 g of honey, and the cohesiveness with 40 g of honey. 3. For color, the best brightness and yellowness were obtained with Sample 1 with 30 g of honey. The redness was highest with Sample 3 with 40 g of honey. Overall, the desirable recipe for soybean Da-sik was 35 g of honey for Sample 1 and Sample 3, and 40 g of oligo-sugar for Sample 2.

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Comparison of Soybean Varieties for Yield, Chemical and Sensory Properties of Soybean Curds (콩 품종에 따른 두부의 수율 및 화학적, 관능적 특성의 비교)

  • Chang, Cheon-Il;Lee, Jung-Kun;Ku, Kyung-Hyung;Kim, Woo-Jung
    • Korean Journal of Food Science and Technology
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    • v.22 no.4
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    • pp.439-444
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    • 1990
  • Fourteen varieties of soybeans grown in Korea were investigated for their chemical composition, yields and organoleptic properties of soybean curd. The soybean curd was prepared by soaking, grinding and heating of soybeans followed by filtration, coagulation with $CaSO_4$ and pressing. The proximate analysis showed that soybean curd had the moisture content of $75.0{\sim}82.0%\;and\;48.6{\sim}56.1%\;protein,\;14.8{\sim}40.4%\;lipids\;and\;6.4{\sim}26.8%$ carbohydrate by dry weight basis. The yield of volume total solids and protein from 100g of soybeans were $182.2{\sim}227.5cm^3,\;42.65{\sim}55.60%\;and\; 57.90{\sim}76.50%$, respectively. Among the 14 varieties, the highest volume yield was obtained from Suwon-141 which has the highest contents of moisture, carbohydrate and the lowest in lipids of soybean curd. The curd prepared with Baegun and Jangyeob contained relatively low values in moisture, protein and carbohydrate and yielded the lowest in volume yield. Therefor moisture, protein and carbohydrate contents in soybean curd affected greatly on volume yield. The organoleptic properties of odor and taste couldn't find any significant relationship with chemical composition of soybean curd eventhough there were some difference in their intensities among varieties.

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PROCESSING OF SOY CURD POWER WITH SOYBEAN AND KRILL (크릴을 이용한 순두부 분말 제조에 관한 연구)

  • HAN Bong-Ho;KIM Keun-Suk;CHO Duck-Jae
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.12 no.3
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    • pp.137-141
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    • 1979
  • A study on the processing of soy curd powder with soybean milk and kril autolasate has been carried out to prolong tile self life and to improve the taste and colour of soy curd. The soy curd was manufactured by coagulation of the soybean milk prepared from soybean through a series of processes of soaking, grinding, heating at $500^{\circ}C$ for 5 minutes and filtration. Ten hours was reasonable as the soaking time of the soybean for the high yield of soybean milk. The use of $3\%$ $glucono-\delta-lactone$ to the weight of the raw soybean showed the best coagulation of the soybean milk at $90^{\circ}C$ in relation to the yield and content of crude protein of the soy curd. The soy curd powder prepared by spray drying of soyben milk could be coagulated at $90^{\circ}C$ by the addition of $glucono-\delta-lactone$ after suspending in water. The powder manufactured by spray drying of the mixture of soybean milk and drill autolasate could also be coagulated under the same conditions to produce the soft soy curd. Another powder prepared by spray drying of the mixture of soybean milk, krill autolysate and $glucono-\delta-lactone$ could be coagulated by standing at room temperature after 2 minutes boiling.

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Estimating the Important Components in Three Different Sample Types of Soybean by Near Infrared Reflectance Spectroscopy

  • Lee, Ho-Sun;Kim, Jung-Bong;Lee, Young-Yi;Lee, Sok-Young;Gwag, Jae-Gyun;Baek, Hyung-Jin;Kim, Chung-Kon;Yoon, Mun-Sup
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.56 no.1
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    • pp.88-93
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    • 2011
  • This experiment was carried out to find suitable sample type for the more accurate prediction and non-destructive way in the application of near infrared reflectance spectroscopy (NIRS) technique for estimation the protein, total amino acids, and total isoflavone of soybean by comparing three different sample types, single seed, whole seeds, and milled seeds powder. The coefficient of determination in calibration ($R^2$) and coefficient of determination in cross-validation (1-VR) for three components analyzed using NIRS revealed that milled powder sample type yielded the highest, followed by single seed, and the whole seeds as the lowest. The coefficient of determination in calibration for single seed was moderately low($R^2$ 0.70-0.84), while the calibration equation developed with NIRS data scanned with whole seeds showed the lowest accuracy and reliability compared with other sample groups. The scatter plot for NIRS data versus the reference data of whole seeds showed the widest data cloud, in contrary with the milled powder type which showed flatter data cloud. By comparison of NIRS results for total isoflavone, total amino acids, and protein of soybean seeds with three sample types, the powder sample could be estimated for the most accurate prediction. However, based from the results, the use of single bean samples, without grinding the seeds and in consideration with NIRS application for more nondestructive and faster prediction, is proven to be a promising strategy for soybean component estimation using NIRS.

Optimization for the Industrial Production of Traditional Jeju Tofu (제주전통두부의 산업화를 위한 최적공정확립)

  • 오영주;이삼빈;김찬식
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.33 no.3
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    • pp.603-608
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    • 2004
  • Traditional Jeju tofu with a hard texture was manufactured by traditional method with a compounded coagulant. The processing condition for industrial production was optimized by determining soaking of soybean, extraction and heat treatment of soymilk as well as concentration and composition of coagulant. Maximum yield of soymilk was obtained by grinding one part of soaked soybean with eight parts of water, and the soluble solid of soymilk was about 8$^{\circ}$Brix. The free thiol group in soymilk was maximally exposed by heating at 10$0^{\circ}C$ for 2 min. A vacuum cooker for heating soymilk was effective for the improvement of yield and texture properties of tofu. The hardness of traditional Jeju tofu was obtained by increasing pressing time and drying by a fan instead of soaking in cold water. Optimization of a traditional tofu production resulted in the increase of total yield and improvement of quality control. Texture of traditional Jeju tofu prepared in industrial production scale was analyzed by instrumental analysis and sensory evaluation. Traditional Jeju tofu showed higher score in the hardness, roasting taste and overall preference compared with a commercial tofu, showing significant difference in 5% significant level..

Development of Traditional Doenjang Improved in Color (색상이 개선된 재래식 된장 개발)

  • Lee, Si-Kyung;Kim, Nam-Dae;Kim, Hyoun-Jin;Park, Jong-Sung
    • Korean Journal of Food Science and Technology
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    • v.34 no.3
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    • pp.400-406
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    • 2002
  • In case of doenjang, solution of browning problem might be an important remedy in order to dissolve consumers' dissatisfaction, therefore this study was performed to develop traditional doenjang which has improved in color aspect for consumers' needs. Physicochemical compositions and color values of commercialized traditional doenjang which was processed by history references of our country, were analyzed. doenjang used as samples were processed with traditional meju, which were made with soybean and mixed with various rates after following process such as soaking, steaming, cooling, chopping and grinding. The doenjang processed were storaged at $30^{\circ}C$ for 27 days, and their amino-N, pH, color values and sensory evaluation were analyzed with fermentation period. Furthermore, nitrogen results analyzed were compared with that of commercialized traditional doenjang. In the comparison with control, treated with only traditional meju, and doenjang treatments processed with different mixing rates of traditional meju and steamed soybean, the content of amino-N in control were higher than the others, and the contents of amino-N decreased with increasing contents of steamed soybean. Their pH were changed weak alkalic region into weak acidic region with fermentation period. In the aspect of color, traditional doenjang having the rate of traditional meju and steamed soybean (1:4) was most improved and also, in comparison of result of sensory evaluation with commercial traditional doenjang, its color, taste and falvor were evaluated predominent, therefore it might be thought to have competition on the market.

Effects of Fermented Feedstuff with Wet Brewer’s Grain and Soybean on Fattening Performance and Carcass Grade in hanwoo Steers (맥주박 발효사료 및 대두의 급여가 한우 거세우의 육성성적 및 도체등급에 미치는 영향)

  • Park, B.K.;Gil, J.M.;Kim, J.B.;Hong, B.J.;Ra, C.S.;Shin, J.S.
    • Journal of Animal Science and Technology
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    • v.45 no.3
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    • pp.397-408
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    • 2003
  • This study was conducted to examine the feeding effects of FFWBG (fermented feedstuff with wet brewer’s grain) and GS(grinding soybean) in Hanwoo steers. For this research, total twenty steers(average body weight : 455.7$\pm$25.9kg) were grouped into control(formula feed), T1(formula feed:FFWBG=60:40), T2(formula feed:GS=80:20), T3(formula feed:FFWBG:GS=50:40:10), and T4(formula feed: FFWBG:GS=40:40:20), each treatment was allocated to four steers. There was a tendency to be increased average daily gain in T1, T2, T3 and T4 compared with the control even though no statistical significance was found. The feed conversion of T1, T2, T3 and T4 were beneficially better than that of control(P<0.05; 8.25, 9.44, 6.69 and 7.71 vs 11.90, respectively). The blood urea nitrogen concentration of T4 was higher than that of control(P<0.05), but the creatinine concentration of T4 was lower than that of control(P<0.05). The glucose concentration of T1, T2, T3 and T4 were higher than that of control(P<0.05; 59.39, 62.44, 62.17 and 54.00 vs 51.00mg/$d\ell$, respectively). The back-fat thickness of T3 was thicker than that of control, T1, T2 and T4. The rib-eye area of T1, T3 and T4 was wider than that of control. Appearances percentage of ‘A’ ranked meat quantity were 66, 33, 75 and 33% in control, T1, T2 and T4, respectively.

Administration of Mycotoxins in Food in Korea (식품 중 곰팡이독소 안전기준 관리)

  • Kang, Kil-Jin;Kim, Hye-Jung;Lee, Yeon-Gyeong;Jung, Kyung-Hee;Han, Sang-Bae;Park, Sun-Hee;Oh, Hye-Yeong
    • Journal of Food Hygiene and Safety
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    • v.25 no.4
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    • pp.281-288
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    • 2010
  • Total aflatoxin ($B_1+B_2+G_1+G_2$) maximum levels of 15 ${\mu}g/kg$ ($B_1=10\;{\mu}g/kg$) were set for grain, beans, peanut, nuts & their processed food (grinding, cutting etc.), processed cereal product & processed bean product, confectionaries (peanut or nut-containing food), soybean paste, red pepper paste, dried red pepper, processed com products for popcorn and steamed rice. The maximum levels for aflatoxin $M_1$ are 0.5 ${\mu}g/kg$ for raw milk and milks before manufacturing processing. The patulin maximum level is 50 ${\mu}g/kg$ in apple juice and apple juice concentrate (including concentrate to use as raw material and converted by concentration multiple). The ochratoxin A is managed at the maximum levels of 5 ${\mu}g/kg$ in wheat, barley, rye, coffee beans and roasted coffee, 10 ${\mu}g/kg$ in instant coffee and raisin, 2 ${\mu}g/kg$ in Grape juice, concentrated grape juice as reconstituted and wine. The fumonisins ($B_1+B_2$) maximum levels are 4000 ${\mu}g/kg$ in com, 2000 ${\mu}g/kg$ in com processed food (grinding, cutting etc.) and com powder, 1000 ${\mu}g/kg$ in processed com products. Standards for mycotoxins in food have been established and the mycotoxin risk in food is managed reasonably and scientifically, based on risk assessment and exposure analysis.

Microbial Analysis and Safety Evaluation in the Process of Packaged Tofus (포장두부의 가공공정에서 미생물 분석 및 안전성 평가)

  • Wang, Soun-Nam;Choi, Sung-Won;Hur, Nam-Yoon;Baik, Moo-Yeol;Lee, Han-Seung;Kim, Chang-Nam
    • Journal of Life Science
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    • v.19 no.4
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    • pp.486-491
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    • 2009
  • This study was conducted to investigate microbial distribution in the processing steps and to estimate quality index and shelf life of packaged Tofu (soybean curd). Sanitation and safety of Tofu were analysed in aspects of total viable counts (TVCs) and coliforms. Organoleptic deterioration was observed from some packaged Tofu when their TVCs were over $10^6\;CFU/g$. The controlled simply packaged Tofu and sterilized Tofu with TVCs of under $10^5\;CFU/g$ were 32.0% and 86.9% of the total samples, respectively. Also, the controlled simply packaged Tofu and sterilized Tofu with negative coliforms were 12.0% and 83.7% of the total samples, respectively. TVCs and coliforms increased in some processing steps, which include washing and soaking of raw soybeans, and formation and 1st cooling of packaged Tofu. Increases of TVCs and coliforms in the washing and soaking step were due to contamination from the soaking tank and airborne bacteria, whereas increases of TVCs and coliforms in the grinding step were due to contaminations from the grinder, line and reserving tank. TVCs and coliforms increased in the formation and 1st cooling step of packaged Tofu due to contaminations from filter wools, trays, employee's hands, cooling water, formed products and filter wools.