Various jellies were produced depending on the type and concentration of gelling agent (nine types), which added a single or double agent in jelly production. Firstly, jelly was manufactured using nine different single gelling agents and characterized. Secondly, six suitable gelling agents were selected to combine double gelling agents among nine gelling agents. To find the optimum gelling agent condition, jelly was intentionally made around 3.6-3.7 pH and 4- 5 N fracturability. A total of 1.2% gelling agent (both single and double agents) was suitable for making jelly (3.6- 3.7 pH, 4-5 N fracturability). According to the analytical result, the optimum single gelling agent was κ-carrageenan and gellan gum, while a suitable combination of double gelling agents was κ-carrageenan and gellan gum at ratios of 1.0:0.2, 0.8:0.4, and 0.6:0.6 and agar and locust bean gum at ratios of 0.8:0.4, 0.6:0.6.
UO2 kernels, a key component of fuel elements for high temperature gas cooled reactors, have usually been prepared by sol-gel methods. Sol-gel processes have a number of advantages, such as simple processes and facilities, and higher sphericity and density. In this study, to produce 900 μm-sized UO2 particles using an external gelation process, contact length extension of the NH3 gas of the broth droplets pass and the improvement of the gelation device capable of spraying 14 MNH4OH solution are used to form 3,000 μm-sized liquid droplets. To produce high-sphericity and high-density UO2 particles, HMTA, which promotes the gelation reaction in the uranium broth solution, is added to diffuse ammonium ions from the outside of the gelation solution during the aging process and generate ammonium ions from the inside of the ADU gel particles. Sufficient gelation inside of ADU gel particles is achieved, and the density of the UO2 spheres that undergo the subsequent treatment is 10.78 g/cm3; the sphericity is analyzed and found to be 0.948, indicating good experimental results.
This study was conducted to investigate the quality characteristics of peach jelly following the addition of various gelling agents (locust bean gum, carrageenan, xanthan gum). The various gelling agents were added to peach jelly at five levels (1.0, 1.5, 2.0, 2.5 and 3.0%), after which their effects on physicochemical properties, textural properties and sensory qualities were investigated. The total titratable acidity (TTA) of peach jelly was decreased with increases in gelling agent. Additionally, the sweetness and pH of peach jelly increased significantly as the amount of various gelling agents increased. Moreover, the lightness (L-value), redness (a-value) and yellowness (b-value) of peach jelly was decreased as the amount of gelling agent. Furthermore, the hardness, gumminess and chewiness of the peach jelly increased as the amount of gelling agent increased. Finally, the overall acceptance was higher for jelly containing 2.0% added gelling agent than for other samples. Based on the results of this study, it is recommended that mixed gelling agents be added to peach jelly at 2.0%.
최근 평균 수명 증가 및 고령화 현상이 급격히 진행되면서 식생활 분야에서 고령에 따른 저작 능력 및 연하곤란 문제가 대두되고 있다. 본 연구는 겔화제(전분, 한천, 검류 등) 종류 및 농도에 따라 고령친화용 모델 단백겔을 제조하여 경도변화를 조사하였다. 두유제조기를 이용하여 제조된 두유액(170g)에 겔화제를 첨가한 후 80°C, 20분간 호화시켜 성형틀에 성형하였다. 실온에서 1시간 방냉하고 4°C 냉장고에서 24시간 저장시킨 후 Texture ananlyzer를 이용하여 경도를 측정하였다. 그 결과 전분(5~15%) 및 한천(1-5%) 농도가 증가할수록 모델 단백겔의 경도는 증가하는 경향을 나타냈으며 각각 최대 6.25×104 N/m2, 3.93×105 N/m2을 나타냈다. 또한, 2가지 겔화제(Gellan, LBG=9:1~4:6, 두유액 대비 6%)를 혼합비율로 첨가시 Gellan 함량이 감소하고 LBG 함량이 증가할수록 모델 단백겔의 경도는 감소하는 경향을 나타냈다. 잔탄검을 고정하고 다른 겔화제(κ-carrageenan, LBG, konjack) 종류에 따른 경도변화를 알아 본 결과 κ-carrageenan, LBG 및 konjack 첨가시 각각 3.45×103 N/m2, 11.70×103 N/m2 및 4.4×104 N/m2 경도를 나타났다. 따라서 본 연구 결과는 겔화제 종류 및 농도 변화를 조절함으로써 고령자의 섭취가 용이하도록 식품의 경도를 사용목적에 따라 다양한 단계로 조절 가능함을 제시하였다.
본 연구는 사용 후 핵연료의 금속전환 공정에서 발생되는 폐용융염을 고형화하는 방법으로 GRSS(Gel-Route Slabilization/Solidifcation)개념을 이용한 전처 리법을 제안하였다. Sodium silicate와 H3p04로 구성된 물질계에서는 SiO에 의해 형성되는 반응모듈 내에서 휘발성 핵종은 열적으로 안정한 화합물로 전환된다. 얻어진 생성물은 붕규산 유리매질과의 반응을 통하여 Li는 LiPO 형태로 유지되며 Cs 및 Sr은 유리매질내에 포용될 수 있다. 또한 sodium silicate, HPO 및 ZrCl로 이루어진 물질계를 이용하여 내구성이 우수한 WZP 세라믹 고화매질을 합성하였다. 이상에서 NZP구조가 형성되며, Cs가 Li보다 우선하여 NZP구조를 형성하였다. 이상의 결과로부터, GRSS를 이용한 폐용융염의 전처리는 단순한 공정과 열적 안정성을 통하여 검증된 고화매질로 고형화가 가능토록하는 유효한 접근법이라 할 수 있으며, 수화학적 안정성의 검증을 통하여 ANL의 제올라이트를 이용한 고화법에 대한 대안이 될 것으로 기대된다.
Cosmetic industries have recently developed sun-block products, which are composed of W/O or O/W emulsion system. It was very difficult for waterproofing product to show the stability in W/O emulsion with TiO2. To enhance the stability of W/O emulsion, it needs to be combined with the water and oil soluble components as the gelling agents. The emulsifiers used in W/O were 3.0% of cetyl dimethicone copolyol, 2.0% of sorbitan sesquioleate as the basic emulsifiers, and 0.6% of quaternium-18 bentonite and 1.5% of dextrin palmitate as stabilizer were used. The content of titanium dioxide was optimized up to 8.0%. Titanium dioxide was used as the UV scattering powder coated with Al2O3(UV-sperse T40/TN). The sunscreen cream prepared with W/O emulsion system by using QB and DP showed higher stability than that of W/O emulsion system by using each QB and DP. W/O emulsion from Formula 3 for passing one year was very durable more than F1 and F2. Within W/O emulsion by observing F1, F2 and F3 for one year, F3 was more excellent than F2 and F3 when they were observed at RT, 4℃, 40℃, because F3 used the mixed QB and DP in W/O emulsion. The zeta potential for F1, F2, and F3 after one year were 21, 30 and 43, respectively. From these result F3 was found best stable emulsion. The in-vitro SPF value for F3 was 35 for the initial product at room temperature and also, the in-vitro SPF values of F3 was 32 for after one year. Finally, the mean in-vivo SPF value of 10 volunteers for F3 was 27.3 by the Korea cosmetic association made the rules of SPF.
DSC를 이용하여 acom starch와 com starch 및 starch-saccharide-water system 의 겔화와 노화에 관한 열적 메카니즘을 알아보았다. 전분에 fructose와 maltose를 첨가한 starch-saccharide-water 계의 엔탈피를 측정한 결과, 당을 첨가하지 않은 경우의 엔탈피 값보다 컸으며 겔화 온도 역시 증가하였는데 이는 당이 물과 상호 작용하여 비결정성 영역에 흡수된 자유수가 감소하고 결정부분이