본 연구에서는 산업 현장에서 병행복발효 술덧 양조에 사용되는 입국과 개량누룩을 전분 당화용 발효제로 사용하고, 대한민국 강원도 삼척 지역에서 수집한 누룩에서 분리·동정한 W. anomalus SC-1을 사용하여 양조를 실시한 결과, 산업용 알코올 발효 효모 S. cerevisiae 대비 동등한 알코올 생성능을 보였고 유기산은 두 효모 모두 입국을 사용한 경우 citric acid, 개량누룩을 사용한 경우 lactic acid가 가장 많이 생성되었다. W. anomalus를 적용한 와인 및 중국 백주 제조를 위한 술덧의 품질 개선을 위한 다양한 연구 결과가 보고되고 있으므로 우리나라 고유의 전통주류 양조 기전의 규명과 주질 다양성 확보 및 이를 통한 차별화된 품질의 전통주 제조를 위하여 전통누룩 중 주요 알코올 발효 미생물로 분리되는 S. cerevisiae 외 야생효모의 알코올 발효 특성과 S. cerevisiae와의 상호작용에 대한 심화 연구의 필요성에 대한 단서를 제공할 수 있었다.
The properties of SOFC unit cells manufactured using the decalcomania method were investigated. SOFC unit cell manufacturing using the decalcomania method is a very simple process. In order to minimize the ohmic loss of flattened tube type anode supports of solid oxide fuel cells(SOFC), the cells were fabricated by producing an anode function layer, YSZ electrolyte, LSM electrode, etc., on the supports and laminating them. The influence of these materials on the power output characteristics was studied when laminating the components and laminating the anode function layer between the anode and the electrolyte to improve the output characteristics. Regarding the performance of the SOFC unit cell, the output was 246 mW/cm2 at a temperature of 800˚C in the case of not laminating the anode function layer; however, this value was improved by a factor of two to 574 mW/cm2 due to the decrease of the ohmic resistance and polarization resistance of the cell in the case of laminating the anode function layer. The outputs appeared to be as high as 574 and 246 mW/cm2 at a temperature of 800˚C in the case of using decalcomania paper when laminating the electrolyte layer using the in dip-coating method; however, the reason for this is that interfacial adhesion was improved due to the dense structure, which leads to a thin thickness of the electrolyte layer.
Surface modification of silica nanoparticles was investigated using an aerosol self assembly. Stearic acid was used as surface treating agent. A two-fluid jet nozzle was employed to generate an aerosol of the colloidal suspension, which contained 20 nm of silica nanoparticles, surface modifier, and ethyl alcohol. Powder properties such as morphology, specific surface area and pore size distribution were analyzed by SEM, BET and BJH methods, respectively. Surface properties of the silica power were analyzed by FT-IR. The OH bond of the SiO2 surface was converted to a C-H bond. It was revealed that the hydrophilic surface changed to a hydrophobic one due to the aerosol self assembly. Morphology of the surface treated powder was nanostructured with lots of pores having an average diameter of around 2 μm. Depending on the stearic acid concentration (0.25 to 1.0 wt%), the pore size distribution of the particles and the degree of hydrophobicity ranged from 1.5 nm to 180 nm and 29.6% to 50.2%, respectively.
This study was evaluated of the fluidity of the mortar according to the size chance in order to examine whether ferro-nickel slag that produced by-product of making stainless steel applies to the fine aggregate.