• 한국식품조리과학회지
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• 제19권3호
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• pp.354-362
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• 2003

전통중편의 단백영양 보강을 위하여 동충하초를 첨가하여 증편의 이화학적, 기계적, 관능적 품질특성을 조사하였다. 동충하초 첨가량을 달리한 증편의 부피는 동충하초 첨가군이 대조군에 비해 증가하였고 pH는 동충하초 5%첨가 증편이 가장 낮게 나타났다. 수분은 대조군에 비해 첨가군의 수분 함량이 낮았고 (p＜.001) 동충하초 첨가군 사이에 유의적인 차이는 없었다. 아미노산 함량은 대조군보다 동충하초 첨가군이 높았으며 필수아미노산을 골고루 함유하고 특히 Leucine, Phenylalanine, Arginine이 높았다. 동충하초첨가 증편의 texture변화에서 색도 중 L값은 대조군에 비해 동충하초 첨가량이 증가할수록 감소하였으며 반면에 a, b값은 첨가량이 증가할수록 증가하였다. texture 측정에서는 껌성은 5% 첨가군이 낮게 나타났고, brittlenes는 7% 첨가군이 대조군과 다른 첨가군중에서 가장 높게 나타났다. 관능검사에서 texture에서는 웅집성이 5% 첨가군, 탄력성은 3% 첨가군이 가장 높게 평가되었으나 유의적인 차이는 없었다. flavor에서 stale grain flavor과 bitterness는 동충하초 첨가량을 증가시킬수록 높게 나타나는 경향을 보였다. 이상의 결과에서 동충하초 증편의 제조에서 이화학적 특성, 기계적 특성, 관능적 특성을 종합했을 때 동충하초 농도를 3%, 5% 첨가시 최적농도임을 도출해 내고 품질이 향상됨을 확인할 수 있었다.

• 한국농공학회지
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• 제19권1호
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• pp.4312-4322
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• 1977

In order to investigate the effect of the water content and the accelerated curing on the strength of the soil-cement mixtures, laboratory test of soil cement mixtures was performed at five levels of water content, four levels of accelerated curing temperatures, three levels of normal curing periods, and six levels of accelerated curing time. Also this study was carried out to investigate the effect of grain size distribution of 21 types of soils on the strength of soil-cement mixtures at four levels of cement content and three levels of curing time. The results are summarized as follows: 1. Optimum moisture content increased with increase of the cement content, but maximum dry density was changed ununiformly with cement content. Water content corresponding to the maximum strength was a little higher than the optimum moisture content along the increase of cement content. 2. In molding the specimens with the optimum moisture content, the maximum strength appeared at the wet side of the optimum moisture content. 3. According to increase of curing temperature as 30, 40, 50, and 60$^{\circ}C$, unconiiend compressive strength of soil-cement mixtures increased, the rate of increase at the early curing period was large, and approximately 120 hours was suifficient to harden soil-cement mixtures completely. 4. The strength of soil-cement mixtures at the curing temperature of 10$^{\circ}C$ decreased at the rate of 30 to 50 percent than at the curing temperature of 20$^{\circ}C$, and the strength of soil-cement mixtures at the curing temperature of 0$^{\circ}C$ increased a little with increase of curing time. 5. Although the strength of soil-cement mixtures seemed to be a little affected by the temperature difference between day time and night, it was recommended that reasonable working period was the duration from July to August of which average maximum temperature of Korea was approximately 30$^{\circ}C$. 6. Accelerated curing time corresponding to the normal curing time of 28-day was shorten with increase of curing temperature, also it was a little affected by the cement. Accelerated curing time that the strength of soil-cement mixtures for the cement of 9 percent and the curing temperature of 60was shorten with increase of curing temperature, also it was a little affected by the cement. Accelerated curing time that the strength of soil-cement mix- tures for the cement of 9 percent and the curing temperature of 60$^{\circ}C$ was 45 hours at the KY sample, 50 hours at the MH, 40 hours at the SS, and 34 hours at the JJ respectively. 7. Accelerated curing time was depended upon the grain size distribution of soil, it decreased with increase the percent passing of No. 200 sieve. 8. Relationship between the normal curing times and the accelerated curing times showed that there was a linear relationship between them, its slope decreased with increase of curing temperature. 9. The most reasonable soil of the soil-cement mixtures was the sandy loam which was a well graded soil. Assuming the base of road requiring 7-day strength of 21 kg/$\textrm{cm}^2$ being used, the soil-cement mixtures could be obtained with adding 6 percent of cement in such a sails S-7, S-8, S-9, S-10, S-11, S-12, S-13. 10. The regression equation between the 28-day and the 7-day strength was obtained as follow; q28=1.12q7,+6.5(r=0.96).

• Journal of the Korean Wood Science and Technology
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• 제2권2호
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• pp.5-7
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• 1974

본 논문은 필자가 미국 미쉬간대학에 유학중 실시된 연구로서 동대학 목재가공학과에 설치된 소형 목재인공건조장치를 사용하여 일정한 건조조건(건구 온도 $150^{\circ}F{\risingdotseq}65.5^{\circ}C$, 습구온도 $1250^{\circ}F{\risingdotseq}51.7^{\circ}C$, 관계습도 48%, 평형함수율 6.9%)하에 공기 순환속도를 매분당 250ft., 400ft, 및 650ft.로 변경할 때 얻어지는 건조속도를 측정하고, 시간당 건조율을 산출하여 비교 검토한 것이다. 본 실험에 사용한 수종은 북미산소나무 Northern white pine (Pinus strobus L.)로서 시편의 크기는 길이 60cm, 넓이 12.5mm(5in.), 두께 18.7mm(3/4in.)이며 공시목의 표면은 증발조건을 균일히 하기 위하여 포삭하였으며, 마구리(end grain)에는 end coating 하였다. 또한 공기순환속도 측정은 상기대학에 비치된 velometer를 사용하였다. 1. 목재의 섬유포화점(함수율 30%) 이상에 있어서 공시목의 건조율은 건조실내 공기순환속도의 증가에 따라서 증가된다. 즉 공시목의 건조율 증감은 공기 순환속도에 대략 비례한다. 그러나 섬유포화점 이하에 있어서는 공기순환속도의 증강은 건조율 증감에 거의 영향을 이치지 아니한다(그림 1, 2 참조). 2. 실험한 건조조건하에 있어서는 공시목의 초기 함수율이 높을수록 높은 건조율을 얻을 수 있다. 즉 공시목의 초기 함수율(MC30% 이상)이 동일하지 아니한 경우에도 공기순환속도를 증가하면 건조 최종기에 있어서 비교적 빨리 대체로 같은 함수율의 공시목을 얻을 수 있다(실험한 초기 함수율, 건조조건 및 공기순환 속도등은 심한 건조 결함을 유발하지 아니하였음). 3. 본연구 결과에 의하면 공시목의 건조율은 섬유포화점(대략 MC30%)에 있어서 현저한 변화를 나타내고 있다. 즉 공시목의 함수율에 대한 건조율 곡선은 그림 3으로 표시된 바와 같이 섬유포화점 이상에 있어서는 건조율 곡선은 X축(MC)에 대하여 요(凹)형(concave)을 나타냈는데, 섬유포화점 이하의 함수율 범위 30%에서 20%에 있어서는 건조율 곡선은 X축에 대하여 철(凸)형(convex)을 나타냈으며 함수율 20% 이하에 있어서는 재차 심한 요(凹)형을 나타내고 있음을 알 수 있다. 이와감은 결과를 요약표시한 원문 그림4에 있어서, 건조율 곡선의 반곡점은 대략 섬유포화점인 MC 30%와 MC 20%에 위치하고 있음을 알 수 있다. 이와같이 섬유 포화점으로 알려져 있는 MC 30%와 20%에 있어서 건조율이 급변하는 반곡점 즉 한계점을 표시하는 것은 다음과 같은 야유에 의한 것으로 고려된다. 즉 세포막에 흡수된 결합수의 증발은 세포강, 세포간격 및 기타의 미세한 공간에 존재하는 자유수의 증발보다 훨씬 곤란하므로, 함수율 30%에서 20%의 범위에 있어서는 철(凸)형을 나타낸다. 즉 함수율 30%에서 20% 의 범위에 있에서 세포막의 모세관 응축수(capillary-condensed water)의 증발은 대략 동일한 감소율을 나타내나, 공시목의 함수율이 20%에 접근됨에 따라서 한층 강한 결합상태하에 있는 수분(표면 결합수 및 그 부근에 있는 수분)이 증발하게 되나, 그와 같은 수분의 증발은 한층 곤란하므로 함수율 20% 이하에 있어서 건조율곡선은 재차 요(凹)형을 표시하는 것으로 사료된다. 이상의 관계를 요약 표시한 원문 그림 4에 있어서, 반곡점을 가지지 아니한 점선 곡선 AC 와 2개의 반곡점을 가지는 실선곡선 BD를 비교하면, BD곡선은 AC곡선보다 함수율범위 30%에서 20%에 있어서 그 건조율은 현저히 감소되고 또한 D점을 반곡점으로 해서 그 건조율은 가일층 감소되고 있음을 알 수 있다. 이상을 요약하면 생재에서 함수율 30%(섬유포화점)까지는 큰 건조율을 표시하니 함수율 범위 30%에서 20%에 있어서는 그 건조율은 점감되고 함수율 20% 이하에 있어서는 그 건조율은 현저히 감소됨을 표시한다.

• Journal of Biosystems Engineering
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• 제4권2호
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• pp.10-24
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• 1979

It is understood that drum speed of threshers and the moisture content of paddy grains to be threshed, respectively, have a signific:mt effect upon rice recoveries. Threshing under an increased drum speed would give a high performance rate, which is the general practice in custom work threshing in association with the use of semiauto-t hreshers. In the connection, however, it may result in the promotion of grain cracks and brokens of the rice product after milling. No reference or determination for an opti mum drum speed of the thresher is made available for various grain moisture contents at the time of the threshing operation and for different rice varieties especially for the Tongil rice varieties. This study was Conducted to find out and determine effects of the drum speeds on grain losses. The grain loss was quantified in terms of recovery rates of rice grains after treatments. Samples of each of all treatments were taken from the grain sampling plate placed in the grain conveyor of threshers. The grain sample plate was specially provided for this experiment. The brown-rice, milling, and head-rice recJveries were tes ted in the laboratory mill, respectively. Two rice varieties, Akibare and Suweon 251, each with five levels of different moist\ulcornerure contents at harvest and six levels of different drum speeds of threshers, were selected and used for treatments in this experiment. Two conditions of materials were tested in the thresher. One condition was to thresh the experimental material immediately after cutting, referred to as the wet-material thr eshing in this study. The other was to thresh the experimental :material, dried to contain about 15-16 percent of the grain moisture under the shocking operation. This is referred to as the dry-material threshing in this study. In additioon, field measurements for the grain moistures and drum-sdeeds under actual operation practices of the traditional field threshing, were conducted with a view to comparing with results of the experimental treatments. The results of the study may be summarized as follows: 1. For threshing treatments of Japonica-type rice variety (Akibare) , the effect of drum speeds and levels of grain moisture at cutting upon brown-rice, milling, and head-rice recoveries were found statistically significant. No significant difference in these recovery rates was noticed regardless of whether the material was threshed right after cutting or after drying by the shocking operation. 2. For the Tongil-sister rice variety(Suweon 251), milling recovery for the varied drum-speed and the grain~moisture level at cutting was found statististically significant. Th milling recovery was much significant when associated with the wet-material thres\ulcornerhing compared to the dry-material threshing. 3. The optimum peripheral velocity to be maintained at the edge of teeth on the thr\ulcorneresher drum was determined and may be recommanded as that of about 12 to 13 meters per second in view of the maximum recovery rate of the milled rice. 4. The effect of the drum speed on the qualitative loss of the milled rice was much greater in the case of the Tongil variety than Japonica. This effect was also greater by the wet-material threshing than by the dry-material threshing. Therefore, to apply the wet-material threshing operation for the Tongil variety, in particular, it should be very important to introduce the kind of threshing technology which would maintain the drum speed at optimum. 5. A field survey for the actual drum speed of threshing operations for 50 threshers indicated that average peripheral velccity was 12.76m/sec., and that the range was from 10.50 to 14.90m/sec. Approximately, more than 30% of the experimented and measured threshers were being operated at speeds which exceeded the optimum speed determined and assessed in this study. Accordingly, it should be highly desirable and important to take counter-measures against these threshing practices of operational overspeed.

• Journal of Biosystems Engineering
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• 제4권2호
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• pp.9-9
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• 1979

It is understood that drum speed of threshers and the moisture content of paddy grains to be threshed, respectively, have a signific:mt effect upon rice recoveries. Threshing under an increased drum speed would give a high performance rate, which is the general practice in custom work threshing in association with the use of semiauto-t hreshers. In the connection, however, it may result in the promotion of grain cracks and brokens of the rice product after milling. No reference or determination for an opti mum drum speed of the thresher is made available for various grain moisture contents at the time of the threshing operation and for different rice varieties especially for the Tongil rice varieties. This study was Conducted to find out and determine effects of the drum speeds on grain losses. The grain loss was quantified in terms of recovery rates of rice grains after treatments. Samples of each of all treatments were taken from the grain sampling plate placed in the grain conveyor of threshers. The grain sample plate was specially provided for this experiment. The brown-rice, milling, and head-rice recJveries were tes ted in the laboratory mill, respectively. Two rice varieties, Akibare and Suweon 251, each with five levels of different moist?ure contents at harvest and six levels of different drum speeds of threshers, were selected and used for treatments in this experiment. Two conditions of materials were tested in the thresher. One condition was to thresh the experimental material immediately after cutting, referred to as the wet-material thr eshing in this study. The other was to thresh the experimental :material, dried to contain about 15-16 percent of the grain moisture under the shocking operation. This is referred to as the dry-material threshing in this study. In additioon, field measurements for the grain moistures and drum-sdeeds under actual operation practices of the traditional field threshing, were conducted with a view to comparing with results of the experimental treatments. The results of the study may be summarized as follows: 1. For threshing treatments of Japonica-type rice variety (Akibare) , the effect of drum speeds and levels of grain moisture at cutting upon brown-rice, milling, and head-rice recoveries were found statistically significant. No significant difference in these recovery rates was noticed regardless of whether the material was threshed right after cutting or after drying by the shocking operation. 2. For the Tongil-sister rice variety(Suweon 251), milling recovery for the varied drum-speed and the grain~moisture level at cutting was found statististically significant. Th milling recovery was much significant when associated with the wet-material thres?hing compared to the dry-material threshing. 3. The optimum peripheral velocity to be maintained at the edge of teeth on the thr?esher drum was determined and may be recommanded as that of about 12 to 13 meters per second in view of the maximum recovery rate of the milled rice. 4. The effect of the drum speed on the qualitative loss of the milled rice was much greater in the case of the Tongil variety than Japonica. This effect was also greater by the wet-material threshing than by the dry-material threshing. Therefore, to apply the wet-material threshing operation for the Tongil variety, in particular, it should be very important to introduce the kind of threshing technology which would maintain the drum speed at optimum. 5. A field survey for the actual drum speed of threshing operations for 50 threshers indicated that average peripheral velccity was 12.76m/sec., and that the range was from 10.50 to 14.90m/sec. Approximately, more than 30% of the experimented and measured threshers were being operated at speeds which exceeded the optimum speed determined and assessed in this study. Accordingly, it should be highly desirable and important to take counter-measures against these threshing practices of operational overspeed.

• 한국농공학회지
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• 제26권2호
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• pp.59-68
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• 1984

The Purpose of this study was to investigate the effect of the change in misture content on some physical properties of grains, and some relations amont the properties. Materials included ere rough rice, brown rice, barley and wheat with the range of moisture content of 6~26 percent, 7~25 percent, 10~24 percent and 6~22 percent, respectively. Kernel dimension, sphericity, kernel weight, and volume were included as the physical properties of the grains. The results obtained are summarized as follows; 1. The ratio of grain length to the thickness was in the range of 3.59~4.16 for rough rice(Indica type), 2.98~3.27 for rough rice(Japonica type), 3.25 for brown rice (I.T.), 2.14~2.38 for brown rice(J.T.), 2.92~3.13 for barley and 2.10~2.21 for wheat, respectively. 2. The sphericity was found to be 42 percent for rough rice(I.T.), 48 percent for rough rice(J.T.), 52 percent for brown rice(I.T.), 62 percent for brown rice(J.T.), 45 percent for barley and 61 percent for wheat, respectively. 3. The kernel weight of grains was linealy increased with the increase of moisture content. At a specified moisture centent of 14 percent, the kernel weight was shown to be in the range of 4.72${\times}10^{-5}$~3.58${\times}10^{-5}$kg for wheat, 3.60${\times}10^{-5}$~3.12${\times}10^{-5}$kg for barley, 2.80${\times}10^{-5}$~2.35${\times}10^{-5}$kg for rough rice, and 2.24${\times}10^{-5}$~1.82${\times}10^{-5}$kg for brown rice, respectively. 4. The kernel volume was linearly increased with increase of moisture content. The rate of increase was significantly low for rough rice in comparison with the remaining grains. The kernel volume, at a specified moisture content of 14 percent, was in the range of 3.51${\times}10^{-8}$~2.76${\times}10^{-8}m^3$ for wheat, 2.84${\times}10^{-8}$~2.43${\times}10^{-8}m^3$ for barley, 2.93${\times}10^{-8}$~1.97${\times}10^{-8}m^3$ for rough rice, and 1.61${\times}10^{-8}$~1.29${\times}10^{-8}m^3$ for brown rice, respectively. 5. The kernel volume of grains was found to be related to the length, width, thickness and kernel weight as a exponential function. The kernel volume was shown to have correlation coefficient to the length factor rough rice and barley which were of low sphericity, while the width factor was predominant for brown rice and wheat which was of high sphericity.

• 한국농공학회지
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• 제30권2호
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• pp.55-66
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• 1988

This study was conducted to investigate the various engineering properties and correlationshops among the soil constants of alluvial clayey deposits distributed in the bay of Asan and their results are summarized as follows : 1. Grain size distribution of soil was consisted of 12 % of clay, 46-73 % of silt, 2-23 % of sand, and as for the consistency characteristics, 26-36 % of liquid limit, 18-21 % of plastic limit and 6-16 % of plastic index, and so the soil belonging to as a lower plastic nonorganic clay, it's specific gravity was 2,66-2.70, and the location on the plastic chart was approximately above the A-line. Z The natural moisture content and unit weight were 30-43 % and 1.76-1.87 g I cm$_3$, respectively, and according to increment of natural moisture content, the unit weight was decreased, and the initial void ratio and degree of saturation were shown of 0,87-1119 and 92- 100 %, most of saturated. 3. Cone resistance value which was shown 2.4 - 6.5 kg / $cm^2$ was a little lower and it was increased with the depth of layer and shown the formular $q_c=0.7_z+1.32$. 4. Unconfined compression strength was about 0.18-0.43kg /$cm^2$, cu, 0.1-0.22kg / $\psi$, $2-6^{\circ}$ under uu-test condition of triaxial, and CCU, 0.08-0.3 kg/cm , $\psi$, $12-18^{\circ}$ under the condition of cu-test. 5. Pre-consolidation load of characteristics of consolidation was 0.4-0.8 kg / $cm^2$, compression index, about 0.17-0.33. 6. Liquid limit and plastic index were incresased with the increment of clay content but most of alluvial clay was appeared as a normal through non-activity clay soil shown more natural moisture content than liquid limit, and their relationship as follows : LL=0.38( cy+54.8), PI=0.836(LL -17.8), PI =0.468(LL -0.48) 7. The initial void ratio presented correlationship of positive among clay content, natural moisture content and liquid limit, and that of reverse with unit weight, and their results as follws : $e_o=0.024(w_n+0.2)$, $e_o=e_o=0.0003c_y+0.0005 LL+0.0151 W_n+\frac{3.58}{r-t}-1.52$ 8. It was shown that the compression index has correlationship of postive among the clay content, liquid limit, plastic index, natural moisture content and initial void ratio, and their relationships as follows ; $c_c=0.44(e_o-0.47)$, $c_c=0.001$

• Journal of Biosystems Engineering
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• 제23권3호
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• pp.229-244
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• 1998

This study was performed to determine proper fan and heater management schemes for natural air drying of rough rice in round steel bin with stirring device under Korean weather conditions. A computer simulation model was developed to predict moisture content changes, energy requirements, and drymatter losses during drying of rough rice by natural air. Drying test was conducted to validate the simulation model using round steel bin of holding capacity of 300ton at Rice Processing Complex in Jincheon. The bin was filled with rough rice every day and mixing by stirring device. Moisture contents, ambient air temperatures, relative humidities, static pressures in plenum chamber in the bin, airflow rates, and electrical and fuel energy were measured. Relative errors of moisture content changes predicted by the simulation model were below 5ft, and relative errors of final moisture content, final grain weight, required energy ranged from 0.9% to 6%. These not levels indicated that the simulation model can satisfactorily predict the performance factors of natural air drying system such as drying rates and energr consumptions comparing error level of 10% to 15% in other drying simulation models generally used in dryer desists. Twelve different fan and heater management schemes were evaluated using the computer simulation model based on three hourly weather data from Suweon for the period of 1952-1994. The best management schemes were selected comparing the drymatter losses, required drying times, required energy consumptions. Operating fan without heating only when ambient relative humidity was below 85% or 90% appeared to be the most effective method of In operation in favorable drying weather. Under adverse drying climates or to reduce required drying time, operating fan continuously, and heating air with $1.5^{\circ}C$ temperature rise only when ambient relative humidity was over 85% appeared to be the most suitable method.

• 한국식품저장유통학회지
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• 제15권1호
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• pp.74-78
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• 2008

콩(품종 : 태광)에 증류수를 가수한 후 $40^{\circ}C$의 오븐에서 함수율 $6.74{\sim}28.87%(db)$ 사이의 구간에서 5수준의 일정한 함수율로 건조하여 탈습 시료를 조제한 다음 온도를 $10^{\circ}C$씩 증가시키며 5수준(5, 15, 21, 35, $45^{\circ}C$)에서 평형상대습도를 측정하고, 농산물의 평형함수율/평형상대습도 예측에 많이 쓰이고 있는 수정 Henderson 모델, 수정 Chung-Pfost 모델, 수정 Halsey 모델, 수정 Oswin 모델, 수정 GAB 모델에 대하여 실험상수를 구하고, 결정계수와 F값 및 평균상대오차율을 기준으로 하여 예측모델로서의 적합성을 검정한 결과는 다음과 같다. 콩은 함수율이 16.70%(db) 이하의 시료에서 온도가 낮을수록 그리고 함수율이 낮을수록 평형상대습도가 낮은 값을 나타냈으며, 함수율 28.87%(db)의 시료에서는 온도가 높아짐에 따라 평형상대습도 값이 낮아지는 현상을 보였다. 콩의 흡습 평형함수율 및 평형상대습도의 예측에는 본 실험에서 선정 분석한5개의 모델 모두사용 가능하나, 수정 GAB 모델이 평형함수율 예측과 평형상대습도 예측에 가장 적합하였다.

• KSBB Journal
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• 제23권4호
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• pp.345-349
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• 2008

본 연구는 에탄올 생산 부산물인 주정박의 사료로서의 가치를 향상시키고 효소 활성을 유지하면서 아미노산이 다량 함유된 발효 사료를 개발하기 위한 고체 발효 조건을 최적화하는데 목적을 두었다. 사용된 균주의 pH에 대한 영향을 살펴본 결과, pH 4에서 효소 활성이 우수하였으며 또한 이 조건은 낮은 pH 조건이므로 잡균에 대한 오염도 예방 할 수 있어 본 실험의 최적 액체배양 조건임을 확인할 수 있었다. 고체 배양을 위한 배양 조건 탐색에서는 60%의 수분을 함유한 고체 배양에서 가장 좋은 효소 활성의 결과를 나타내었으며 적정 배지 조성을 위한 혼합 비율 탐색의 경우 밀기울 함량이 높고 DDG 함량이 낮을수록 효소 활성은 좋았으나 아미노산 함량은 낮은 반면, DDG 함량이 높고 밀기울 함량이 낮을수록 효소 활성은 낮았지만 아미노산 함량은 높은 결과를 나타내었다. 따라서 효소활성 ($\geqq$ 1,000 U/g) 및 아미노산 함량 ($\geqq$ 28%)이 적당한 고체 발효 배지 조성의 비율은 DDG와 밀기울이 1 : 4였다. 이렇게 해서 얻어진 결과로 약 1 ton 정도의 발효 사료 시제품을 생산하였으며 시제품의 효소활성과 조단백질 함량은 각각 1,024 U/g과 33.6%였다.