Since the implementation of the Odor Prevention Act in 2005, the number of odor complaints has continuously increased due to the increased interest in the living environment. The current odor control means is a concentrationbased method for the source of odor. That is why there is a difference between the odor sensitivity and the result of the odor measurement in the odor damage area. The government is considering the introduction of the grid method, which is the odor management method of Germany, as the method of odor investigation in the odor damage area in the second comprehensive Odor Prevention Policy (2019-2028). The grid method is receptor-based odor measurement method that investigators use to judge odors in the field, task that expensive and requires substantial manpower and time. To study an odor measurement method that is suitable for domestic conditions, this study compared the correlation between results based on the odor frequency concept grid method around the livestock facilities and the result of ammonia concentration measured by passive air sampler. The correlation coefficient (R) that is between the frequency of odor per spot for the entire odor and the ammonia concentration that was measured by passive air sampler was 0.65 which is relatively good. Among the entire odor detected by the grid method, the correlation coefficient (R) between the odor frequency selected only for livestock odor and the ammonia concentration was significantly increased to 0.80. In addition, the correlation between odor exposure (ECPexist) and the ammonia concentration for the overall odor was 0.81 (linear) and 0.86 (index). If only the livestock odors were selected, the correlation between odor exposure and the ammonia concentration was very high at 0.96 (linear) and 0.95 (index).
This study aims to gather precise information on the real fabric color and texture, and purchasing intention of mobile shoppers buying clothes. Eighty volunteers participated in the sensory test on three smartphones with four colors and two fabricssmooth taffeta and hairy doeskin. This study carried out the posteriori test using the one-way ANOVA and Duncan test by SPSS21.0. In the analysis’ results of color preference, there were no differences among the four colors of taffeta between the smartphones, but different preferences between the red and yellow doeskin exist. In the case of the Samsung phone, which has an immense color distortion, the red fabric has a low color preference. In contrast, on the Apple phone yellow fabric had the highest preference because of its brightness. The Apple phone also has the highest purchasing intention of yellow colored taffeta, which is similar to the color preference results, although the real fabric has the opposite result. For doeskin, the real red and blue colored fabric has the highest purchasing intention. The Samsung phone has the biggest color mismatch with the real fabric. It also has the lowest purchasing intention of red taffeta fabric, while the LG phone has the lowest purchasing intention of blue fabric. Using the paired comparison method of the similarity between ‘real’ fabrics and the mobile version of fabric colors has a low similarity on all four colors of taffeta and doeskin fabrics. Therefore it can be concluded that phones do not represent the ‘real’ fabric color.
The object of this study is to investigate the relationship between the air dilution sensory test and the threshold odor number (TON) method for evaluating the odor of domestic wastewater, plating plant wastewater, food plant wastewater and lake water. The dilution factor of raw wastewater evaluated by the air dilution sensory test was in the order of food plant > plating plant > domestic > lake, and that evaluated by the threshold odor number method was in the order of food plant > domestic > plating plant > lake. The same results were obtained when the raw wastewater and lake water were diluted 2 and 5 times with pure water. The relative geometric standard deviation determined from the threshold values of each panel on the air dilution sensory test was much larger than that calculated from results derived from the threshold odor number method. The relative geometric standard deviation obtained from samples with a low dilution factor was greater. There was a very good linear correlation (correlation coefficient = 0.968~1.000) between the air dilution sensory test and the threshold odor number method. But, the reduction in odor intensity (the slopes of regression curves) by dilution was dependent on the types of the odor-emission sources.
For this study, 18 kinds of cut and sew or seamless knitted test garment were made. Samples differed from each other by skirt angles(90°, 180°), gauges(7G, 12G, 15G), and grain directions(bias direction, wale direction, and radial direction). After measuring the mechanical properties of various gauges on the seamless knitting machine, I compared shape of the knitted flare skirt through subjective evaluation on appearances. The data analysis methods used in this study were descriptive statistics, one-way ANOVA, Duncan-test, correlation analysis, and regression analysis. The subjective evaluation on appearances of knitted flare skirts showed the following: In case of 90° skirt, the seamless skirt showed a much higher score in every gauge expect that of the cut and sew 12G, and silhouette of 15G wale direction. In case of the 180° skirt, the seamless type showed a much higher score in every item over the cut and sew expect the silhouette part of 7G wale direction.
본 연구는 국내 7개 회사와 일본과 타이완 기업에서 만들어진 PET POY 사의 습열과 건축수축률을 연구하였다. 이들 사(絲)의 열적수축률들은 hank방법 (KSK 0215)과 Toray FTA-500 장치를 사용하여 측정되었으며 측정된 데이터는 측정방법에 따라 분석되고 토의되어졌다. 준비된 시료는 PET POY 85d/72f와 120d/35f이며 더구나 250d/48f와 155d/50f PET POY가 일본과 국내사 사이의 습열과 건열수축률의 비교를 위해서 역시 준비되어졌다. 그리고 각 시료들의 습열과 건열수축률들은 원사 케이크 내의 사(絲), 50,000m를 1개의 layer로 각각 나누어 각각의 layer 별로 측정되어졌으며 급내와 급간 열수축률이 측정 분석되었으며 국내와 외국 수입사(絲)에 따른 차이를 hank와 Toray 측정방법에 따라 분석하였다.
The spherical particles of CeO2/SiO2 composite powder with narrow-size distribution and pure phase particles were synthesized by ultrasonic spray pyrolysis method from aqueous cerium sulfate solution. The resulting composite powder was characterized by X-ray diffraction, scanning electron microscopy, transmittance electron microscopy, in-vitro sun protect factor, and BET surface area analysis. The concentration of cerium sulfate was tested to vary the particle size from 3.40×10-3 to 1.02×10-2mol/cm3 to study concentration effect of starting material. The average particle size from the 3.40×10-3mol/cm3 concentration was found to be slightly smaller than that from the 1.02×10-2mol/cm3 concentration, because of the relation between the droplet size and the concentration of the starting material solution
Cup arrangement ranking method (CARM) is a method for a rapid and small-sample sensory evaluation of cooked rice in rice breeding program. This study was compared to four different scale ranges (1~11, 1~9, 1~7 and 1~5) for improving the efficiency of CARM using sixteen Japonica and four Tongil-type cultivars. The wide scale ranges were higher of that than narrow scale range on determination coefficient between standard sensory evaluation method (SSEM) and CARM. However, the wide scale ranges were required more time and efforts than those of the narrow scale ranges for eating sensory evaluation of cooked rice. The wide scale ranges of 1~11 and 1~9 were difficult to distinguish the differences between the cultivars in the scale 3 and 4. On the other hand, the narrow scale ranges of 1~7 and 1~5 could distinguish the difference between cultivars in all scales. We suggest that two scale ranges for CARM were 1~7 (7 classes) in including Tongil type cultivars and 1~5 (5 classes) in Japonica cultivars.
Rice breeders or sensory evaluators are striving to develop the rapid and correct sensory evaluation method of the cooked rice with a small-sample. This study was conducted to develop a method of cooking condition and sensory evaluation of the cooked rice rapidly and correctly with a small-sample by introducing a concept of arrangement ranking to the conventional sensory evaluation method by cooking in the cup, which has been used only as a simple test. A method of simultaneous cooking of the five samples for one round of test was developed. And, an arrangement ranking method was developed just like stacking a tower by arranging the cups in the sensory evaluation. The proposed method was named as cup arrangement ranking method. The correlation analysis between the cup arrangement ranking method (CARM) and the standard sensory evaluation method (SSEM) showed a high significance of correlation (r=0.83**∼0.91**, ‘13∼’14). Further, when effectiveness of proposed method was compared with the standard sensory evaluation method, the sample quantity was a 30g level for one round of test, which is a tenth of SSEM. The time consumed for sensory evaluation was two minutes per one sample, which was a reduced value by half as compared with the time consumption by SSEM. Therefore, the cup arrangement ranking is expected to be an effective method in the selection of excellent rice line or variety having good taste by evaluating the cooking quality rapidly with a small-sample in early generation.
벚나무 꽃과 유엽을 이용한 차개발을 위해 꽃과 유엽의 주요 성분분석, 항균성, 항산화성, 항염증 및 제다 방법에 따른 색도, 무기성분 변화 조사와 품질의 관능 평가 등을 실시하였다. 벚나무 꽃차를 80℃ 물에 우려낸 결과 K, Ca, Mg는 동결건조로 제다한 차에서, Na은 자연건조로 제다한 차에서 많이 추출되었다. 벚나무 꽃차를 우려내는 시간은 무기물의 추출 측면에서 5분 이상 우려내야 할 것으로 나타났다. 덖음 처리로 제다된 유엽차의 무기물을 효과적으로 용출하려면 덖음처리 단계에서부터 90초 정도의 덖음처리를 하는 것이 좋은 것으로 나타났다. 벚나무의 꽃차를 관능평가를 한 결과 꽃차의 색도와 향은 낮게 평가된데 비해 수색은 높게 평가되었다. 유엽차는 덖음처리를 한 것이 높게 평가된 가운데 색도는 다소 낮게 평가되었다. 그러나 향기는 구수하다라는 평가가 많았고, 수색은 녹차와 같다는 평가가 많았다.