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태양전지 시뮬레이터를 위한 새로운 태양전지 특성 모의 방법
김정중(Jeong joong Kim),민병덕(Byung Duk Min),이종필(Jong Pil Lee),김태진(Tea Jin Kim),유동욱(Dong Wook Yoo),송의호(Eui Ho Song) 전력전자학회 2007 전력전자학술대회 논문집 Vol.- No.-
본 논문에서는 태양전지 시뮬레이터를 위해 새로운 태양전지 특성곡선 모의 방법을 제안한다. 태양전지 모델링의 수식은 비선형적이며 파라미터가 복잡하며, 실제 구현에서 어려움이 많다. 본 논문에서 제시한 방식은 이러한 문제점을 극복하기 위해, 태양전지 데이터북을 바탕으로 새로운 표준 시험 조건의 전류, 전압 특성 곡선과 주요 환경별 지정 데이터들을 바탕으로 데이터베이스 작업의 간소화와 프로그램 수행시간 절약이 가능한 새로운 전류, 전압 특성 곡선 추출방법을 제시하고, 새로운 방법에 대한 유효성을 시뮬레이션을 통하여 검증하였다.
정정호(Jeong-Ho Jeong),김규제(Ku-Je Kim),김정중(Jung-Joong Kim) 한국생활환경학회 2010 한국생활환경학회지 Vol.17 No.6
Membrane structures are widely used for constructing large space such as gymnasium and stadiums. The use of sound absorption membrane system are increasing in stadiums and arenas, however research on the sound absorption characteristics were not so much investigated. Kiyama (1996), Hashimoto (1996) and Sakagami (2005) conducted theoretical studies on the sound absorption and sound insulation properties of single and double leaf permeable membrane. In this study, sound absorption characteristics of each membrane were investigated by experiments in reverberation chamber. 4 types of permeable membranes and a non-permeable membrane were used for experiments. Air space behind membrane material and tension on the membrane was varied. Sound absorption performance of permeable membrane materials was investigated. As increasing air space behind the membrane material, sound absorption coefficient was increased. In a resonance absorption frequency band sound absorption coefficient varied more dramatically. Sound absorption characteristics were flat in mid and high frequency range and sound absorption coefficient was from 0.3 to 0.5. Also sound absorption coefficient was increased by the increment of surface density and air permeability of membrane. However, over the certain value of air permeability and surface density sound absorption coefficient was decreased. These results can be used as design factors and method for the room acoustic design of dome-stadiums and large free-form buildings.
산화 이리듐의 물의 산화반응에 대한 버블 과전압 현상과 촉매 특성 연구
김정중,최용수,권성중,Kim, Jeong Joong,Choi, Yong Soo,Kwon, Seong Jung 한국전기화학회 2013 한국전기화학회지 Vol.16 No.2
Iridium oxide is well known as an electrocatalyst for the water oxidation. Recently, Dr. Bard's group observed the electrocatalytic behavior of individual nanoparticle of Iridium oxide using the electrochemical amplification method by detecting the single nanoparticle collisions at the ultramicroelectrode (UME). However, the electrocatalytic current is decayed as a function of time. In this study, we investigated that the reason of electrocatalytic current decay of water oxidation at Iridium oxide nanoparticles. We identified it is due to the bubble overpotential because the cyclic current decay and recovery were synchronized to the oxygen bubble growth and coming away from an Iridium disk electrode. 산화 이리듐은 물의 산화반응에 대해 좋은 전기촉매 물질로서 많은 연구가 이루어 지고 있다. 최근 전기화학적 증폭방법을 이용하여 산화 이리듐 나노입자의 개별적인 촉매특성을 연구한 결과를 보면 촉매반응에 의한 전류가 지속적으로 유지되지 않고 시간에 따라 감소하는 결과가 얻어 졌다. 이러한 촉매특성의 사라짐에 대한 원인을 규명하고자 사이즈가 큰 이리듐전극을 산화시킨 산화이리듐 전극에서 물의 산화반응을 진행시켰다. 그 결과 나노입자에서와 유사하게 전류가 감소하는 현상이 관찰되었다. 큰 전극에서의 실험에서는 발생하는 산소방울을 관찰 할 수 있었는데 산소방울의 발생 주기가 전류의 증감주기와 일치하는 것으로 보아 전류의 감소는 산소방울에 의한 버블 과전압 때문으로 생각된다.
정정호(Jeong, Jeong-Ho),손장열(Shon, Jang-Ryul),김정중(Kim, Jung-Joong) 한국소음진동공학회 2007 한국소음진동공학회 논문집 Vol.17 No.4
Following the 2002 World-Cup held in Korea, studies have been actively conducted on plans to utilize all-weather stadiums of fine figures, where large-scale spaces are available for various utilizations. In Japan, dome-type stadiums have been built and are utilizing across the whole nation not only for sports events but also variety of other large-scale events. PTFE(poly tetra fluoro ethylene) is one of the membrane material mainly used for the outer ceiling surface of membrane structures. However, there has not been enough research on the acoustical properties of PTFE membrane material which has been widely used in the multi-purpose stadiums. In this study, air permeability values and sound absorption coefficient of PTFE membrane materials were measured and evaluated in the gymnasium. From the results of measurements of sound absorption coefficient and air permeability of inner membrane materials, it was found that the sound absorption coefficient was good in the air permeability range of $5{\sim}15\;cc/cm^2/s$. Also the relation ship between air permeability and sound absorption coefficient was very high and the sound absorption coefficient was the highest in the range of $6{\sim}9\;cc/cm^2/s$. Secondly, an analysis on the measurements sound absorption characteristics of inner membrane material reveals that the overall sound absorption coefficient was stabilized(higher than 0.5 throughout the whole frequency bands) when the air space behind the membrane material was deeper than 600 mm. When PTFE sound absorptive membrane material was installed in the ceiling of gymnasium, it was confirmed that sound absorptive membrane material can reduce reverberation and increase speech intelligibility in the gymnasium.