• 제목/요약/키워드: Thermal and electrical efficiency

검색결과 461건 처리시간 0.023초

이종접합 실리콘 태양전지의 효율 개선을 위한 열처리의 효과 (Effect on the Thermal Treatment for Improving Efficiency in Silicon Heterojunction Solar Cells)

  • 박형기;이준신
    • 한국전기전자재료학회논문지
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    • 제37권4호
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    • pp.439-444
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    • 2024
  • This study investigates the post-thermal treatment effects on the efficiency of silicon heterojunction solar cells, specifically examining the influence of annealing on p-type microcrystalline silicon oxide and ITO thin films. By assessing changes in carrier concentration, mobility, resistivity, transmittance, and optical bandgap, we identified conditions that optimize these properties. Results reveal that appropriate annealing significantly enhances the fill factor and current density, leading to a notable improvement in overall solar cell efficiency. This research advances our understanding of thermal processing in silicon-based photovoltaics and provides valuable insights into the optimization of production techniques to maximize the performance of solar cells.

플래시메모리소자의 구조에 대한 열적 데이터 삭제 효율성 비교 (Comparison of Efficiency of Flash Memory Device Structure in Electro-Thermal Erasing Configuration)

  • 김유정;이승은;이광선;박준영
    • 한국전기전자재료학회논문지
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    • 제35권5호
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    • pp.452-458
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    • 2022
  • The electro-thermal erasing (ETE) configuration utilizes Joule heating intentionally generated at word-line (WL). The elevated temperature by heat physically removes stored electrons permanently within a very short time. Though the ETE configuration is a promising next generation NAND flash memory candidate, a consideration of power efficiency and erasing speed with respect to device structure and its scaling has not yet been demonstrated. In this context, based on 3-dimensional (3-D) thermal simulations, this paper discusses the impact of device structure and scaling on ETE efficiency. The results are used to produce guidelines for ETEs that will have lower power consumption and faster speed.

액체식 PVT 복합모듈의 유형별 성능 비교 분석 (The Experimental Performance Comparison of a Water Type Glazed and Unglazed PV-Thermal Combined Modules)

  • 김진희;강준구;김준태
    • 대한설비공학회:학술대회논문집
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    • 대한설비공학회 2009년도 하계학술발표대회 논문집
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    • pp.792-797
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    • 2009
  • The excess heat that is generated from PV modules can be removed and converted into useful thermal energy. A photovoltaic-thermal(PVT) module is a combination of photovoltaic module with a solar thermal collector, forming one device that receives solar radiation and produces electricity and heat simultaneously. In general, two types of PVT can be classified: glass-covered PVT module, which produces high-temperature heat but has a slightly lower electrical yield, and uncovered PVT module, which produces relatively lower temperature heat but has a somewhat higher electrical performance. In this paper, the experimental performance of two types of the PVT combined module(water type), glazed(glass-covered) and unglazed, was analyzed. The electrical and thermal performance of the PVT combined modules were measured in outdoor conditions, and the results were compared.

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태양광 발전의 성능향상을 위한 PV/T 시스템 개발 (Development of PV/T for Performance Improvement of Photovoltaic System)

  • 최정식;고재섭;정동화
    • 전력전자학회논문지
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    • 제16권2호
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    • pp.173-181
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    • 2011
  • 본 논문에서는 건물통합형 태양광 발전 시스템의 전기적 열적 성능을 얻기 위해 하이브리드 PV/T 모듈을 제시한다. 건물 외벽에 부착하는 BIPV 시스템은 태양광 발전 시 온도상승으로 인하여 시스템의 효율이 떨어진다. 이러한 문제점의 해결과 BIPV 시스템의 효율을 향상시키기 위해 수냉방식을 적용시키고 발생된 열은 온수 시스템에 사용된다. 수냉 냉각방식은 전력손실과 물의 온도를 고려한 유량제어 알고리즘을 이용하고 실증연구를 통하여 제시한 하이브리드 PV/T 모듈의 전기적 열적 성능을 확인하여 본 논문의 타당성을 입증한다.

고열전도도 MgO를 이용한 열전도성 PV(PhotoVoltaic) 백시트의 연구 (Study on Thermal Conductive PV(PhotoVoltaic) Backsheet using MgO Masterbatch with High Thermal Conductivity)

  • 김창희;장현태;박종세;윤종국;노은섭;박지수;구경완
    • 전기학회논문지
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    • 제67권3호
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    • pp.448-453
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    • 2018
  • PV module protective film plays an important role in protecting the solar cell from external environment by anti-hydrolysis polyester, UV resistance and mechanical properties. The backsheet was manufactured by using Roll-to-Roll dry laminating process. The backsheet structure is composed of 3 layers, which are PE, PET, and Fluorine polymer films. In this study, we have experimented the variation of thermal conductivities depending on MgO inputs 10% to 25% in order to confirm the dependence of the module efficiencies. High thermal conductive backsheet can increase the module output power efficiency because the heat is dissipated by spreading out the internal heat. Long-term environment weatherability tests were conducted for confirming 25 year reliability in the field such as PCT, UV, and power efficiency degradations. As the evaluation result, high thermal conductivity can be effective for increase of power efficiency of solar panel by using thermal conductive MgO masterbatch.

염료감응형 태양전지 광전극의 초음파 열처리를 통한 광전효율 개선에 관한 연구 (A Study of Photo-electric Efficiency Improvement using Ultrasonic and Thermal Treatment on Photo-electrode of DSC)

  • 김희제;김용철;최진영;김호성;이동길;홍지태
    • 전기학회논문지
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    • 제57권5호
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    • pp.803-807
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    • 2008
  • A making process of DSC(dye sensitized solar cell) was presented. In general, Photo electrodes of DSC was made by using colloid paste of nano $TiO_2$ and processing of Doctor-blade printing and high temperature sintering for porous structure. These methods lead to cracks on $TiO_2$ surface and ununiform of $TiO_2$ thickness. This phenomenon is one factor that makes low efficiency to cells. After $TiO_2$ printing on TCO glass, a physical vibration was adapted for reducing ununiform of $TiO_2$ thickness. And a thermal treatment at low temperature(under $75^{\circ}C$) was adapted for reducing cracks on $TiO_2$ surface. In this paper, we have designed and manufactured an ultrasonic circuit (100W, frequency and duty variable) and a thermal equipment. Then, we have optimized forcing time, frequency and duty of ultrasonic irradiation and thermal heating for surface treatment of photo-electrode of DSC. In I-V characteristic test of DSC, ultrasonic and thermal treated DSC shows 19% improved its efficiency against monolithic DSC. And it shows stability of light-harvesting from drastically change of light irradiation test.

반사판을 이용한 고정식 집속형 복합 Panel에 대한 연구 (A study on the fixed-concentrating hybrid panel using reflector)

  • 김규조;김승환;유형철;김완태;허창수
    • 대한전기학회:학술대회논문집
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    • 대한전기학회 2001년도 춘계학술대회 논문집 전기기기 및 에너지변환시스템부문
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    • pp.463-466
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    • 2001
  • The most effective methods of utilizing solar energy are to use the sunlight and solar thermal energy such as hybrid panel simultaneously and to use concentrator. From such a view point, systems using various kinds of photovoltaic panels were constructed in the world. However there have not been a type of panel using concentrator and hybrid simultaneously. If the sunlight are concentrated on the solar cell, cell conversion efficiency increase and the temperature of the solar cells increases. As the temperature of the solar cells increases, so cell conversion efficiency decreases. Therefore, for maintaining cell conversion efficiency at these conditions, it is necessary to keep the cell at low temperature. In this paper, after designing a concentrate rate for concentrating, we proposed model for cooling cell and using waste heat, and we compared with conventional panels after calculating the electrical and thermal efficiency using energy balance equation.

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Rapid Thermal Oxidation 기반의 표면 보호막을 이용한 n-type 실리콘 태양전지의 제작과 전기적 특성 분석 (N-type Silicon Solar Cell Based on Passivation Layer Grown by Rapid Thermal Oxidation)

  • 류경선;김성진
    • 한국전기전자재료학회논문지
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    • 제26권1호
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    • pp.18-21
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    • 2013
  • $SiO_2$ layer grown by rapid thermal oxidation and $SiN_x$ layer were used for passivating the surface of n-type silicon solar cell, instead of only $SiN_x$ layer generally used in photovoltaic industry. The rapid thermal oxidation provides the reduction of processing time and avoids bulk life time degradation during the processing. Improvement of 30 mV in Voc and $2.7mA/cm^2$ in Jsc was obtained by applying these two layers. This improvement led to fabrication of a large area ($239cm^2$) n-type solar cell with 17.34% efficiency. Internal quantum efficiency measurement indicates that the improvement comes from the front side passivation, but not the rear side, by using $SiO_2/SiN_x$ stack.

광학적 열적 최적화를 통한 6인치 다운라이트 설계 (The Design of 6 inch Down-light by Optimization of the Optical and the Thermal Properties)

  • 김성현;정영기;서범식;양종경;박대희
    • 전기학회논문지
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    • 제60권6호
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    • pp.1178-1182
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    • 2011
  • The best methods for distribution controled of LED lighting fixtures is control to designed LED chip array, lens and reflector. However, lens design need distribution design to reflector for low-wattage LED lighting because of difficulty of production and reduction of light efficiency. In addition, it needs maximize of thermal performance to improve the efficiency and reliability of device. As a result, for the height of reflector 40[mm] and Inclination 25[$^{\circ}$], we can see the best distribution properties, and, in the thermal properties, junction temperature MCPCB 62.9 [$^{\circ}C$], FR4 PCB 89.6 [$^{\circ}C$], FR4 PCB from Via-hole is 63.1 [$^{\circ}C$]. it may improve for thermal properties for makes the Via-hole.

반사판을 이용한 고정식 집속형 복합 Panel에 대한 연구 (A Study on the Fixed-Concentrating Hybrid Panel using Reflector)

  • 김규조;김완태;이태호;유형철;허창수
    • 한국태양에너지학회 논문집
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    • 제21권2호
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    • pp.1-8
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    • 2001
  • The most effective methods for utilizing solar energy are to use the sunlight and solar thermal energy such as hybrid panel simultaneously and to use concentrator. From such a view point systems using various kinds of photovoltaic panels are constructed in the world. However, there has not been a hybrid panel with a concentrator. If the sunlight is concentrated on solar cell, cell conversion efficiency increases and the temperature of the solar cell s increases. As the temperature of the solar cells increases, the cell conversion efficiency gradually decreases. For maintaining the cell conversion efficiency constant, it is necessary to keep solar cell at low temperature. In this paper, after designing a concentration rate for concentrating, we propose a model for cooling the cell and for using wasted heat. And, we compare it with conventional panels after calculating the electrical and thermal efficiency, using the energy balance equation.

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