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건물일체형 투명 PV복층창의 설치조건에 따른 단위출력당 발전특성 분석연구
안영섭(An Young-Sub),송종화(Song Jong-Hwa),김석기(Kim Seok-Ge),이성진(Lee Sung-Jin),윤종호(Yoon Jong-Ho) 한국태양에너지학회 2008 한국태양에너지학회 학술대회논문집 Vol.- No.-
This study is on the analysis of power output of transparent thin-film PV windows which are integrated into the building envelope instead of traditional windows. 3 installation angles of vertical, horizontal and 30° inclination are investigated. To measure power output of PV windows, full scale mock-up house was designed and constructed. The power performance of PV window system was analyzed for horizontal angle, declination angle and vertical angle according to incline angle. Monitoring data are gathered from November 2006 to August 2007 and statistical analysis is performed to analysis a characteristics of power performance of transparent PV windows. Results show that annual power output of PV window with horizontal angle is 844.4㎾h/㎾p/year, declination angle l,060㎾h/㎾p/year and vertical angle 431.6 ㎾h/㎾p/year.
비정질 박막 투과형 태양전지모듈의 온도특성에 따른 발전성능 평가 연구
안영섭(An, Young-Sub),송종화(Song, Jong-hwa),이성진(Lee, Sung-jin),윤종호(Yoon, Jong-ho) 한국신재생에너지학회 2009 한국신재생에너지학회 학술대회논문집 Vol.2009 No.06
This study evaluated the influence of temperature on the PV module surface on power output characteristics, especially for an amorphous transparent thin-film PV module which was applied to a full-scale mock-up model as building integrated photovoltaic system. The tested mock-up consisted of various slopes of PV module, facing to the south. The annual average temperature of the module installed with the slope of 30? revealed 43.1?C, resulting in 7?C higher than that measured in PV modules with the slope of 0?and 90? did. This 30? inclined PV module also showed the highest power output of 28.5W (measured at 2 PM) than other two modules having the power output of 20.4W and 14.9W in the same time for 0? and 90? in the slope, respectively. In case of the 30? inclined PV module, it exhibited very uniform distribution of power output generation even under the higher temperature on the module surface. Consequently, the surface temperature of the PV module analyzed in this study resulted in 0.22% reduction in power output in every 1?C increase of the module surface temperature.
인접건물에 의한 파사드일체형 BIPV모듈의 음영영향 평가연구
안영섭(An Young-Sub),이정환(Lee Jeong-Hwan),윤종호(Yoon Jong-Ho) 한국건축친환경설비학회 2007 한국건축친환경설비학회 논문집 Vol.1 No.2
Technologies generating electricity using photovoltaic(PV) resource have a variety of applications without specialized maintenance, environmental pollution triggered, and corrosion of materials. Among one of the various technologies is the development and popularization of building integrated photovoltaic system (BIPV), especially replacing PV with external finishing materials that is being progressed throughout the world. Building integrated photovoltaic system(BIPV) is composed by PV modules which used as building exterior component material. And it takes high economic effects and added value to the building itself. BIVP system do generates electricity. And it has the functions which are outer wall, roof, window, fasade, shading material etc. When the high cost building exterior material is to be replaced by BIPV module, BIPV has more economical efficiency. The existing solar generating system need the space and the structural elements for install, but BIPV need no space and structural elements. Somewhat. The architectural structure, construction, raw, safety, endurance and etc. must be examined to building integrated element as BIPV. And environmental factor such as thermal performance, natural lighting performance, and shield the noise performance must be evaluated extensively. This study evaluates the shading effect of exterior type BIPV module. The evaluation factor was defined as area, building height, building width, building azimuth. Result shows the relationship between shading and generation when the PV module was used as building exterior elements.
건물일체형 태양광발전시스템(BIPV)의 설치조건에 따른 발전특성 연구
안영섭(An, Young-Sub),송종화(Song, Jong-Hwa),김석기(Kim, Seok-Ge),이성진(Lee, Sung-Jin),윤종호(Yoon, Jong-Ho) 한국신재생에너지학회 2008 한국신재생에너지학회 학술대회논문집 Vol.2008 No.05
This study has analysed power output characteristics of transparent thin-film PV module depending on incidence angle and azimuth. The simulation results was evaluated power outputs of transparent thin-film PV module depending on incidence angle and azimuth after calibrating the experimental and computed data. As a result, the best power output performance of transparent thin-film PV module was obtained at slope of 30? to the south, producing the annual power output of 977kWh/kWp. The annual power output data demonstrated that the PV module with a slope of 30? could produce a 68 % higher power output than that with a slope of 90?, with respect to the inclined slope of the module. Furthermore, the PV module facing south showed a 22 % higher power output than that facing to the east in terms of the angle of the azimuth.
태양광발전시스템 성능 시뮬레이션을 통한 하수처리장 에너지자립율 산정
안영섭(An, Young-Sub),김성태(Kim, Sung-Tae),채규정(Chae, Kyu-Jung),강지훈(Kang, Ji-hoon),양희정(Yang, Hee-Jung) 한국태양에너지학회 2011 한국태양에너지학회 학술대회논문집 Vol.2011 No.11
This paper presents energy self-sufficiency simulated in municipal wastewatertr eatment plants (WWTPs) by adopting solar energy production systems that vary with installation conditions. Relative to the national average energy consumption in WWTPs, the employment of 100 kW photovoltaics (PVs) was simulated to achieve 2.75% of energy self-sufficiency. The simulated results suggested that the installation of PVs toward South or South west would produce the highest energy self-sufficiency in WWTPs. When super-hydrophilic coating was employed in the conventional PVs, 5% of additional solar energy production was achievable as compared to uncoated conventional PVs. When 100 kW of PVs were installed in a future test-bed site, Kihyeung Respida located in Yougin, Sourth Korea, the energy self-sufficiency by solar energy was simulated tobe 1.77% (2010).The simulated energy self-sufficiency by azimuth(direction) will be useful reference for practitioners in designing the solar PV systems in the WWTPs.
공동주택 발코니 확장에 따른 창호종류별 에너지 성능 평가연구
안영섭(An Young-Sub),박재성(Park Jae-Sung),김병수(Kim Byoung-Soo),윤종호(Yoon Jong-Ho),황상근(Hwang Sang-Geun) 한국태양에너지학회 2006 한국태양에너지학회 학술대회논문집 Vol.- No.-
Apartment balcony has been indiscreetly remodelled since the government permitted remodeling on January 2006. But remodeled balcony has a few problems such as increase of heating energy, surface condensation and cold draft. The reason of thermal problem is mainly caused by the window system of a extended balcony. The purpose of this study is to analyze the thermal characteristics and propose the efficient window types for the extended balcony area of a apartment building. 4 types of window system which have fairly high U value in Korea are investigated as follows ; double clear glass, double low-e glass, triple clear glass and triple low-e glass. Comparing double clear glass with double low-e glass, triple clear glass and triple low-e glass, simulation results shows that 7%, 8% and 13% saving of total primary energy can be exptected.
안영섭(An Young-Sub),김성태(Kim Sung-Tae),이성진(Lee Sung-Jin),송종화(Song Jong-Hwa),황상근(Hwang Sang-Kun),윤종호(Yoon Jong-Ho) 한국태양에너지학회 2010 한국태양에너지학회 논문집 Vol.30 No.4
This study has been carried out empirical research on Transparent Thin-film BIPV modules, BIPV modules installed on the exterior of the building are applied a laminated module 1㎾p, double-glazing module 3㎾p and triple-glazing module 1㎾p. Applied to the total capacity of BIPV modules are 5㎾p. In this study, design and construction process of BIPV systems is presented. In addition, through monitoring of the BIPV system, the temperature and the power characteristics of each module were analyzed. During the measurement period, the module temperature measurement results, the maximum surface temperature of 51.5℃ triple-glazing BIPV module showed the highest, followed by double-glazing BIPV module 49.1℃, 44.7℃ laminated modules, respectively. Power output results, the daily average double-layer modules showed 4.10㎾h/day, triple-glazing module 1.57㎾h, respectively 1.81㎾h laminated modules. In particular, the power efficiency of triple-glazing BIPV module was lower than the power efficiency of the laminated BIPV module. This phenomenon is considered to be affected by the module temperature. In the future, BIPV modules in this study the relationship between module temperature and power characteristics plans to identify.