Electrical product safety certification is for public safety. Korea electrical safety certification (KC) is being tested and certified on the base of Korean electrical appliance safety act and KC scheme. There are operating system and Electrical safety standards in the KC scheme. KC' operating system was adapted from japan operating system of Japan certification scheme. But KC certification' electrical safety standard was adapted from IEC standards of IECEE CB scheme. So There are many problems such as difference of version between KC standards and IEC standards, discrepancy between operating system and standards. Therefore, This paper analyzed the reason of discrepancy and proposed the improved KC certification operating system in order to reduce cost and to save time in the procedure of issuing KC approval for public safety in using electrical products and also for global competence.

Volatile organic compounds (VOCs) are a source of air pollution and are harmful to both human health and the environment. In this study, we fabricated polyurethane/rare earth (PU/RE) composite nanofibrous membranes via electrospinning with the aim of removing VOCs from air. The morphological structure of PU/RE nanofibrous mats were investigated using FE-SEM, EDX, and XRD experimental analyses. A certain amount of RE (up to 50 wt% compared to PU pellets) particles could be loaded on/into PU fibers. The PU nanofiber containing 50 wt% RE powder had the smallest fiber diameter of 356 nm; it also showed the highest VOCs absorption capacity compared with other composite membranes, having an absorption capacity about 3 times greater than pure PU nanofibers. In addition, all of the PU/RE nanofibrous membranes readily absorbed styrene the most, followed by xylene, toluene, benzene and chloroform. Therefore, the PU/RE nanofibrous membrane can play an important role in removing VOCs from the air, and its development prospects are impressive because they are emerging materials.

Fe3O4/Fe/graphene nanocomposite powder is synthesized by electrical wire explosion of Fe wire and dispersed graphene in deionized water at room temperature. The structural and electrochemical characteristics of the powder are characterized by the field-emission scanning electron microscopy, X-ray diffraction, Raman spectroscopy, field-emission transmission electron microscopy, cyclic voltammetry, and galvanometric discharge-charge method. For comparison, Fe3O4/Fe nanocomposites are fabricated under the same conditions. The Fe3O4/Fe nanocomposite particles, around 15-30 nm in size, are highly encapsulated in a graphene matrix. The Fe3O4/Fe/graphene nanocomposite powder exhibits a high initial charge specific capacity of 878 mA/g and a high capacity retention of 91% (798 mA/g) after 50 cycles. The good electrochemical performance of the Fe3O4/Fe/graphene nanocomposite powder is clearly established by comparison of the results with those obtained for Fe3O4/Fe nanocomposite powder and is attributed to alleviation of volume change, good distribution of electrode active materials, and improved electrical conductivity upon the addition of graphene.

A metallic oxide layer of a heat-resistant element contributes to the high-temperature oxidation resistance by delaying the oxidation and has a positive effect on the increase in electrical resistivity. In this study, green compacts of Fecralloy powder mixed with amorphous and crystalline silica are oxidized at 950oC for up to 210 h in order to evaluate the effect of metal oxide on the oxidation and electrical resistivity. The weight change ratio increases as per a parabolic law, and the increase is larger than that observed for Fecralloy owing to the formation of Fe-Si, Fe-Cr composite oxide, and Al2O3 upon the addition of Si oxide. Si oxides promote the formation of Al2O3 and Cr oxide at the grain boundary, and obstruct neck formation and the growth of Fecralloy particles to ensure stable electrical resistivity.

본고는 인도의 시아귀회(施餓鬼會)를 수용한 중국의 수륙재(水陸齋)가 독자 적인 내용과 목적으로 변용된 양상과 함께, 그것이 고려에 전래되어 조선전기 수륙재 설행의 유행에 문화적 기반이 된 추이를 개괄한다. 또한 조선전기에 이 르러 전사회적으로 크게 유행하게 된 수륙재의 설행양상을 그 대상과 목적을 중심으로 살피어, 조선전기에 국가주도적으로 거행된 수륙재가 조상 등 특정 영 가의 천도를 중심으로 하는 불교식 상제례(喪祭禮)로 수렴되어 간 면모를 밝힌 다. 마지막으로 무차대회(無遮大會)의 개념적 차별성을 주목하여 조선전기에 일 반적으로 인식되었던 수륙재와의 차이를 확인하고, 그것이 조선 중기 이후 ‘여 제(厲祭)’라는 유교식 국가제사로 대치되거나 민간불교를 중심으로 하는 독자적 방향으로 변모해 간 흔적을 조망한다. 조선전기 수륙재는 특정 또는 불특정 망자에 대한 불교적 구제를 목적으로 설행되었다. 그 각각을 대표하는 것이 왕실의 조상(祖上)을 대상으로 하는 불교 식 상제례로서의 수륙재와 고려 왕씨를 위한 추천(追薦) 수륙재이다. 그 중에서 도 전자가 더 중요한 것으로 파악된다. 특히 불교식 상제례의 경우 국가의 강력 한 개입 하에 칠칠재, 백일재, 소상재, 대상재, 그리고 대상 이후의 기신재가 모 두 수륙재로 합설되었으며, 이는 수륙재가 불교식 상제례의 의례적 형식을 이루 었음을 의미한다. 한편 특정 망자를 대상으로 하는 불교식 상제례로서의 수륙재 이든 불특정 망자를 대상으로 하는 추천 수륙재이든, 그 모두가 국가의 강력한 주도 하에 제도화되었음을 주목할 필요가 있다. 교단에 대한 국가권력의 강력한 개입은 전통시대 동아시아 3국의 공통적인 특징이지만, 그 중에서도 특히 한국 불교에 강하게 보이는 특징이라는 평가가 최근 학계에서 힘을 얻는 추세이다. 조선전기 수륙재의 제도화와 정비 과정에서 보이는 국가권력의 막강한 관여 역 시 그 같은 평가에 중요한 사례가 될 것이다. 무차대회란 수륙재의 내용을 이루는 한 축으로 이해되고 있지만, 개념적으로 무차대회와 수륙재는 분리될 필요가 있다. 조선전기의 수륙재가 특정 망자 특히 조상의 천도를 주된 목적으로 하여 변용될 때, 무주고혼을 포함하여 저승과 이 승의 모든 존재들을 평등하게 풀어먹이는 데 목적을 둔 무차대회는 그와 차별 적인 모습을 띠며 독자적으로 전개되었다. 하지만 조선전기의 수륙재가 어느 순 간 주자가례(朱子家禮)와 여제(厲祭)라는 막강한 유교적 의례질서로 빠른 속도 로 대체되고 국가주도적 수륙재 설행의 전통이 단절된 이후, 무차대회는 다시 불교식 상제례의 양상과 함께 수륙재의 성격 일부로 흡수되어 민간의 불교신행 을 중심으로 하여 전사회적으로 유행하게 되었다.

Recently EC-MBR (Elctrocoagulation - Membrane Bio Reactor) has been suggested as one of alternative processes to overcome membrane fouling problems. Most important operational parameters in the EC-MBR are known to current density and contact time. Their effect on membrane filtration performances has been reported well, however, quantitative interrelationship between both parameters not been investigated yet. The purpose of this study is to give a kinetic model suggesting the current density and the contact time required to reduce the membrane fouling. The 4 different set of current densities (2.5, 6, 12 and 24 A/m2) and contact times (0, 2, 6 and 12 hr) were selected as operational parameters. After each electro-coagulation under the 16 different conditions, a series of membrane filtration was carried out. The membrane fouling decreased as the current density and contact time increased, Total fouling resistances under different conditions, Rt(=Rc+Rf) were calculated and compared to those of the controls (R0), which were calculated from the data of experiments without electro-coagulation. A kinetic approach for the fouling reduction rate (Rt / R0) was carried out and the equation ρi0.46t=7.0 was obtained, which means that the product of current density and the contact time needed to reduce the fouling in certain amounts (in this study, 10% of fouling reduction) is always constant.

Many studies for personal mobility are increasing at the latest. One part of personal mobility study is electric scooter. Driving elements of electric scooter are battery and motor, patterns of vehicle being proposed multiply by manufacturer. The old and the infirm's population in domestic and abroad increases day by day. Thus, the personal vehicle for them that can be managed easily is needed for them. Following the trend “personal mobility”, this study propose electric-drive scooter which is portable and compact. Prototypes of proposed models are manufactured to commercialize it. As results, adopt of foldable type at electric scooter can be decreased size. Also 4-wheel scooter is more stable than 3-wheel sooter.

The effects of electron beam(EB) irradiation on the electrical and optical properties of InGaZnO(IGZO) thin films fabricated using a sol-gel process were investigated. As the EB dose increased, the electrical characteristic of the IGZO TFTs changed from semiconductor to conductor, and the threshold voltage values shifted to the negative direction. X-ray photoelectron spectroscopy analysis of the O 1s core level showed that the relative area of oxygen vacancies increased from 14.68 to 19.08 % as the EB dose increased from 0 to 1.5 × 1016 electrons/cm2. In addition, spectroscopic ellipsometer analysis showed that the optical band gap varied from 3.39 to 3.46 eV with increasing EB dose. From the result of band alignment, it was confirmed that the Fermi level(EF) of the sample irradiated with 1.5 × 1016 electrons/cm2 was located at the closest position to the conduction band minimum(CBM) due to the increase of electron carrier concentration

Aluminum-oxide(Al2O3) thin films were deposited by electron cyclotron resonance plasma-enhanced atomic layer deposition at room temperature using trimethylaluminum(TMA) as the Al source and O2 plasma as the oxidant. In order to compare our results with those obtained using the conventional thermal ALD method, Al2O3 films were also deposited with TMA and H2O as reactants at 280 oC. The chemical composition and microstructure of the as-deposited Al2O3 films were characterized by X-ray diffraction(XRD), X-ray photo-electric spectroscopy(XPS), atomic force microscopy(AFM) and transmission electron microscopy(TEM). Optical properties of the Al2O3 films were characterized using UV-vis and ellipsometry measurements. Electrical properties were characterized by capacitance-frequency and current-voltage measurements. Using the ECR method, a growth rate of 0.18 nm/cycle was achieved, which is much higher than the growth rate of 0.14 nm/cycle obtained using thermal ALD. Excellent dielectric and insulating properties were demonstrated for both Al2O3 films.

Well-dispersed platinum catalysts on ruthenium oxide nanofiber supports are fabricated using electrospinning, post-calcination, and reduction methods. To obtain the well-dispersed platinum catalysts, the surface of the nanofiber supports is modified using post-calcination. The structures, morphologies, crystal structures, chemical bonding energies, and electrochemical performance of the catalysts are investigated. The optimized catalysts show well-dispersed platinum nanoparticles (1-2 nm) on the nanofiber supports as well as a uniform network structure. In particular, the well-dispersed platinum catalysts on the ruthenium oxide nanofiber supports display excellent catalytic activity for oxygen reduction reactions with a half-wave potential (E1/2) of 0.57 V and outstanding long-term stability after 2000 cycles, resulting in a lower E1/2 potential degradation of 19 mV. The enhanced electrochemical performance for oxygen reduction reactions results from the well-dispersed platinum catalysts and unique nanofiber supports.

PURPOSES : The pole electrode method damaged the concrete pavement on inserting the electrode into the pavement surface. This study examined the feasibility of the flat electrode method to observe the concrete pavement instead of the pole electrode method and analyzed the resistivity characteristics of the concrete by performing laboratory tests. METHODS : The resistivity of the concrete specimens manufactured with three different mixing ratios (38.50%, 39.50%, and 40.50%) were measured using the pole and flat electrode methods according to the concrete age (7 and 28 days) and electrode spacing (20 mm, 30 mm, and 40 mm). RESULTS : In both pole and flat electrode methods, the resistivity increased with increasing fine aggregate proportion regardless of the concrete age. The resistivity measured at a concrete age of 28 days was slightly larger than that measured at 7 days. In the case of a concrete age of 7 days, the resistivity measured by the flat electrode method was larger than that measured by the pole electrode method. The difference disappeared at 28 days. CONCLUSIONS: The results suggest that the flat electrode method can replace the pole electrode method because the resistivity measured by both methods was similar. Hence, the development of a technology to apply the flat electrode method to actual concrete pavement is necessary.

ZnO film was prepared on a p-type Si wafer and then annealed at various temperatures in air and vacuum conditions to research the electrical properties and bonding structures during the annealing processes. ZnO film annealed in atmosphere formed a crystal structure owing to the suppression of oxygen vacancies: however, ZnO annealed in vacuum had an amorphous structure after annealing because of the increment of the content of oxygen vacancies. Schottky contact was observed for the ZnO annealed in an air. O 1s spectra with amorphous structure was found to have a value of 529 eV; that with a crystal structure was found to have a value of 531.5 eV. However, it was observed in these results that the correlation between the electronic characteristics and the bonding structures was weak.

산업폐수 처리에서 미량오염물질(독성 유기물, 화합물, 연료 등)의 제거가 중요하다. 생물학적 처리에 의해서는 미량오염물질을 제거하기 어렵다. 따라서 본 연구에서는 분리막과 고도전기산화를 접목하여 색도, 미세입자등을 효과적으로 제거하고 막오염을 저감시키는 막결합형 고도전기산화시스템을 개발하였다. 색도는 원수 120 도(Pt-Co 색도 값)에서 처리수 20 도이하로 제거되었고, 탁도의 경우 처리수 0.1 NTU이하의 수준으로 감소하였다. 또한 막오염 저감의 성능으로 전극을 켜지않고 실험하였을때 16 kPa까지 증가하였으며 0.5 A/L전류를 공급하였을 때 5 kPa으로 유지되었다. 본 연구는 한국환경산업기술원의 환경융합 신기술 개발사업(No. 2015001640004) 연구결과의 일부이다.

최근 대두된 난분해성 미량오염물질은 일반적인 수처리 공법으로는 제거가 잘 되지 않고 수 ng/L 단위로도 수중생태계와 인간에게 독성을 나타내므로 반드시 처리가 필요하다. 따라서 본 연구에서는 CNT (Carbon nanotube)를 이용하여 중공사막을 제조한 후, 그것을 전극으로 사용하여 미량오염물질을 전기화학적으로 산화 제거하였다. SEM, BET, flux, conductivity 결과를 통해 전극의 특성을 분석하였다. BPA(bisphenol A), Sulfamethoxazole(SMX), N,N-Diethyl-metatoluamide(DEET) 3가지 물질을 제거 대상 미량오염물질로 선정하였고 CHM 산화극 내부로 오염물질이 포함된 물을 흘려 보내주었을 때 5분 만에 100%의 제거효율을 보였다.

음식폐기물 산발효액 내 존재하는 유기산은 산업 원료로 가치가 있으나 분리 비용이 높은 문제점이 있다. 본 연구에서는 저에너지 유기산분리를 위해 전기투석공정에서 산발효액 내 유기산의 이동현상과 운전조건 (전압, 희석율, pH) 간의 상관관계를 연구하였다. 아세트산과 부틸산으로 주로 구성된 음식물 산발효액 원액 (COD 기준 유기산 67.3 %) 을 실험실 규모 전기투석기를 사용하여 분리전압을 5 V ~ 12 V로 변화시켰을 때, 분리전압 8 V에서 최대 유기산 회수율 (COD 기준 89.4 %, 순도 86.8 %) 을 보였으며, 이 때 분리에 사용된 에너지는 0.286 kWh/kg-COD of VFAs로 나타났다. 전기투석과정에서 분자량 차이에 따른 유기산 간의 이동현상 차이는 발견되지 않았다.

내열성이 우수한 polystyrene(PS)를 혈액투석용 분리막으로 사용하기 위해 생체적합성이 우수한 고분자를 블랜딩하여 나노파이버 혈액투석막을 제조하였다. 제조된 PS nanofiber mambrane은 직경(fiber meter), 표면특성, 기공크기 분석을 통해 혈액투석용 분리막으로 최적화하였다. PS nanofiber membrane을 음이온 및 친수성 고분자 용액으로 화학적 개질하여 혈액투석막의 효율을 향상시키고자 하였다. 개질 용액의 음이온기는 혈액 속 단백질 흡착을 저지시켜 내오염성을 향상시켰으며 친수성기는 혈액 속 과잉수분 및 염분을 제거하였다.