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Corrosion mitigation of photovoltaic ribbon using a sacrificial anode
Wonwook Oh(오원욱),Sung-Il Chan(천성일) 한국산학기술학회 2017 한국산학기술학회논문지 Vol.18 No.3
태양광 모듈에서 태양전지를 연결해주는 인터커넥터로 리본 솔더로 SnPbAg가 사용되고, 옥외 태양광 발전에 장기간 노출시 리본의 부식으로 인한 열화가 흔히 관찰된다. 이러한 부식현상으로 인하여 리본과 태양전지의 접합이 약해져 접촉저항이 증가하고, 또한 리본 자체의 직렬 저항이 증가하게 되어 태양전지의 전압 전류 곡선에서 충진률 손실로 출력이 저하된다. 본 논문에서는 리본의 부식을 완화시킬 수 있는 방법으로 희생양극법을 이용하여 순수 알루미늄 및 아연, 알루미늄, 아연 그리고 마그네슘의 합금을 이용한 5가지 희생양극 소재의 부식에 의한 열화 저감을 연구하였다. 전기화학적 방법으로 희생양극 소재의 개방회로 전위와 폐쇄회로 전위를 측정하였고, 포텐시오다이나믹 분극 곡선을 측정하고, 영저항전류계를 이용하여 리본과 소재간의 갈바닉 전류를 측정하였다. 또한, 아세트산과, NaCl에 리본과 희생양극 소재의 부착 전후의 침지시험과 4셀 미니모듈로 제작한 후 1500시간 고온고습 시험 전후 출력을 평가하였다. 그 결과 Al-3Mg와 Al-3Zn-1Mg의 희생양극 소재가 부식속도가 느리고, 출력저하를 저감시킬 뿐만 아니라 장기 안정성에도 효과적인 것으로 평가된다. Degradation is commonly observed in field-aged PV modules due to corrosion of the photovoltaic ribbon. The reduced performance is caused by a loss of fill factor due to the high series resistance in the PV ribbon. This study aimed to mitigate the degradation by corrosion using five sacrificial anodes - Al, Zn and their alloys - to identify the most effective material to mitigate the corrosion of the PV ribbon. The corrosion behavior of the five sacrificial anode materials were examined by open circuit potential measurements, potentiodynamic polarization tests, and galvanic current density and potential measurements using a zero resistance ammeter. Immersion tests for 120 hours were also conducted using materials and damp heat test tests were performed for 1500 hours using 4 cell mini modules. The Al-3Mg and Al-3Zn-1Mg sacrificial anodes had a low corrosion rate and reduced drop in power, making then suitable for long-term use.
오원욱(Oh Wonwook),강소연(Kang Soyeon),천성일(Chan Sung-Il) 한국태양에너지학회 2017 한국태양에너지학회 논문집 Vol.37 No.1
We have analyzed the performance of 58 kWp photovoltaic (PV) power systems installed in Jeddah, Saudi Arabia. Performance ratio (PR) of 3 PV systems with 3 desert-type PV modules using monitoring data for 1 year showed 85.5% on average. Annual degradation rate of 5 individual modules achieved 0.26%, the regression model using monitoring data for the specified interval of one year showed 0.22%. Root mean square error (RMSE) of 6 big data analysis models for power output prediction in May 2016 was analyzed 2.94% using a support vector regression model.
태양광 발전소의 Snail trail 열화 현상과 출력 손실의 영향성 분석
오원욱(Oh Wonwook),김대성(Kim Daesung),전성근(Jeon Seonggeun),윤아영(Yoon Ayoung),김남승(Kim Namseung),김상수(Kim Sangsoo),서근원(Seo Kun Won),최훈주(Choi hoonjoo) 한국태양에너지학회 2020 한국태양에너지학회 논문집 Vol.40 No.6
The snail trail is a common degradation phenomenon that is observed in solar power plants. Although the occurrence of cosmetic problems has been reported in previous studies, the contribution of these problems to the actual power loss is negligible. However, the cracking of the solar cell induces a loss in the output. We analyzed the results of the thorough investigation of a 95 kWp solar power plant that was operated in the field for 5 years. The snail trail phenomenon was observed in a specific module using current-voltage measurement, electroluminescence analysis, and visual inspection. We evaluated the impact of the loss in the generated power via image extraction.
오원욱(Oh Wonwook),전성근(Jeon Seonggeun),윤아영(Yoon Ayoung),김대장(Yoon Ayoung),최훈주(Choi hoonjoo) 한국태양에너지학회 2021 한국태양에너지학회 논문집 Vol.41 No.2
A photovoltaic (PV) string consists of PV modules that are connected in series. When partial shading occurs in the PV modules, the total PV string current is lowered. When the partial shading becomes severe, the bypass diode operates. Most PV systems are exposed to partial shading by nearby terrain, rather than an actual shaded flat environment. In this study, shading analysis was performed at 19 points of a 33.2 kWp solar power plant installed on the roof of a building, and the shaded irradiance ratio at the PV module location was estimated using this result. We compared the results of the performance ratio monitored for one year. As a result, the expected output ratio of the shading analysis compared to normal was found to be 89.6%, and the annual performance ratio was 90.2%.