• Title/Summary/Keyword: PV Panel

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Optimum Connection Structure for PV Panel Considering Shadow Influence (그림자 영향을 고려한 태양광 패널의 최적 접속 구조)

  • Jeong, Woo-Yong;Kim, Yong-Jung;Kim, Hyosung
    • Proceedings of the KIPE Conference
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    • 2019.07a
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    • pp.210-212
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    • 2019
  • 태양광발전에서 PV panel의 출력 전압 및 전류는 제한적이기 때문에, 필요로 하는 전원 조건을 충족시키기 위하여 PV panel을 직병렬로 연결하여 PV array를 구성한다. 이때, PV array에 부분적인 그림자가 발생할 경우 최대발전전력은 PV array의 접속 구조와 블록킹 다이오드 유무에 따라 달라진다. 본 논문에서는 PV panel의 직병렬 접속에 따른 PV array의 6가지의 접속 구조와 블록킹 다이오드 유무를 고려하여, 부분적인 그림자가 발생할 경우 발전전력을 극대화할 수 있는 최적의 접속 구조를 제시하고 시뮬레이션과 실험을 통해 검증하였다.

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A high efficient PV system using series connection of DC-DC converter's output with photovoltaic panel (광전지 패널과 DC-DC 컨버터 출력의 직렬 접속을 이용한 고효율 PV 시스템)

  • Kim, Ho-Sung;Kim, Jong-Hyun;Min, Byung-Duk;Yoo, Dong-Wook;Hong, Ji-Tae;Lee, Dong-Gil;Kim, Hee-Je
    • Proceedings of the KIEE Conference
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    • 2008.07a
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    • pp.1146-1147
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    • 2008
  • PV Power Conditioning System (PCS) must have high conversion and low cost. Generally, PV PCS uses either a single converter or multilevel module integrated converter (MIC). Each of these approaches has both advantage and disadvantage. For a high conversion efficiency and low cost of PV module, this paper proposes series connection of module integrated DC-DC converter's output with PV panel. Output voltage of PV panel is connected to the output capacitor of flyback converter. Thus, converter's output voltage is added to the output voltage of PV panel. Isolated DC-DC converter generates only the difference voltage between the PV panel voltage and the required total output voltage. This method reduces power level of DC-DC converter and enhances the energy conversion efficiency compared with conventional DC-DC converter.

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The Development Measuring System of Temperature Effect to Produce Electric Power of Solar Cell

  • Sadmai, Ong-art
    • International journal of advanced smart convergence
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    • v.4 no.1
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    • pp.104-113
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    • 2015
  • This paper focuses on a temperature effects on a PV panel which has been installed in Thailand. The main objective is cleaning PV panels and reduce temperature of PV panel by water injects from waterway and experimental results of PV power what it is difference. This project is designed by PLC control system which water injects and control PV temperature, In addition, this project consists of hardware and software such as water pump, water injection and PLC control has been automatically and it can be control system manually. The automatic control system is working when PV temperature rises up over 45 degree Celsius after that the pumping machine would inject water to the surface of PV panels and it must be stop when the PV panel temperature comes down less than 45 degree Celsius. The result of actual experimental found that the control system has been done correctly under specify condition. The experimental has been shown electrical data before and after water injects on PV system found that the electrical power a bit increases and The energy has been taken from PV panel less than energy consumption equipment of control system which taken to operate the water injecting system.

Performance Evaluation of a Solar Tracking PV System with Photo Sensors (포토센서를 이용한 태양위치 추적기의 성능분석에 관한 연구)

  • Jeong, Byeong-Ho;Cho, Geum-Bae;Lee, Kang-Yeon
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.27 no.5
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    • pp.67-73
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    • 2013
  • The conversion of solar radiation into electrical energy by Photo-Voltaic (PV) effect is a very promising technology, being clean, silent and reliable, with very small maintenance costs and small ecological impact. The output power produced by the PV panels depends strongly on the incident light radiation. The continuous modification of the sun-earth relative position determines a continuously changing of incident radiation on a fixed PV panel. The point of maximum received energy is reached when the direction of solar radiation is perpendicular on the panel surface. Thus an increase of the output energy of a given PV panel can be obtained by mounting the panel on a solar tracking device that follows the sun trajectory. Tracking systems that have two axes and follow the sun closely at all times during the day are currently the most popular. This paper presents research conducted into the performance of Solar tracking system with photosensors. The results show that an optimized dual-axis tracking system with photosensor performance and analysis. From the obtained results, it is seen that the sun tracking system improves the energy and energy efficiency of the PV panel.ti-junction CPV module promises to accelerate growth in photovoltaic power generation.

Implementation of cost-effective wireless photovoltaic monitoring module at panel level

  • Jeong, Jin-Doo;Han, Jinsoo;Lee, Il-Woo;Chong, Jong-Wha
    • ETRI Journal
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    • v.40 no.5
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    • pp.664-676
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    • 2018
  • Given the rapidly increasing market penetration of photovoltaic (PV) systems in many fields, including construction and housing, the effective maintenance of PV systems through remote monitoring at the panel level has attracted attention to quickly detect faults that cause reductions in yearly PV energy production, and which can reduce the whole-life cost. A key point of PV monitoring at the panel level is cost-effectiveness, as the installation of the massive PV panels that comprise PV systems is showing rapid growth in the market. This paper proposes an implementation method that involves the use of a panel-level wireless PV monitoring module (WPMM), and which assesses the cost-effectiveness of this approach. To maximize the cost-effectiveness, the designed WPMM uses a voltage-divider scheme for voltage metering and a shunt-resistor scheme for current metering. In addition, the proposed method offsets the effect of element errors by extracting calibration parameters. Furthermore, a design method is presented for portable and user-friendly PV monitoring, and demonstration results using a commercial 30-kW PV system are described.

The Performance Evaluation Study of PV-Solarwall Unit Module Solar Thermal-Electric Energy (태양에너지를 이용한 열-전기 동시생산을 위한 PV-Solarwall 단위모듈 성능평가 연구)

  • Kim, Yong-Hwan;Cho, Yil-Sik;Lee, Euy-Joon;Hyun, Myung-Taek;Kang, Eun-Chul
    • Journal of the Korean Solar Energy Society
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    • v.25 no.3
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    • pp.69-75
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    • 2005
  • The PV-Solarwall system has been introduced as a promising alternative to harness solar energy for both heating applications and electricity generation simultaneously. The system comprises a PV solar panel(for electricity generation). In addition, the solarwall incorporates a fan strategically located behind the PV panel to bring the warm and fresh air from the solarwall into the room. Because of its location and convective cooling principle, the fan also serves to reduce the operating temperature of the PV panel thereby increasing its efficiency. So this PV-Solarwall system holds much promise for saving heating and electricity costs compared with a PV system without solarwall. In particular, by controlling the tilt angle of the entire PV-Solarwall system between $0^{\circ}$(horizontal) and $90^{\circ}$(vertical), the performance of the system can be further evaluated. It is expected that the range of tilt angle PV-Solarwall between $40^{\circ}$ and $50^{\circ}$ will improve the output of the system.

Topology optimization of the photovoltaic panel connector in high-rise buildings

  • Lu, Xilin;Xu, Jiaqi;Zhang, Hongmei;Wei, Peng
    • Structural Engineering and Mechanics
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    • v.62 no.4
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    • pp.465-475
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    • 2017
  • Photovoltaic (PV) panels are used in high-rise buildings to convert solar energy to electricity. Due to the considerable energy consumption of high-rise buildings, applying PV technology is of great significance to energy saving. In the application of PV panels, one of the most important construction issues is the connection of the PV panel with the main structures. One major difficulty of the connection design is that the PV panel connection consists of two separate components with coupling and indeterminate dimension. In this paper, the gap element is employed in these two separated but coupled components, i.e., hook and catch. Topology optimization is applied to optimize and design the cross-section of the PV panel connection. Pareto optimization is conducted to operate the optimization subject to multiple load scenarios. The initial design for the topology optimization is determined by the common design specified by the Technical Code for Glass Curtain Wall Engineering (JGJ 102-2003). Gravity and wind load scenarios are considered for the optimization and numerical analysis. Post analysis is conducted for the optimal design obtained by the topology optimization due to the manufactory requirements. Generally, compared with the conventional design, the optimized connector reduces material use with improved structural characteristics.

A Study of Cooling and Heating Load Changes with Roof Type Solar Panels Installed on Factory Roof (지붕형 태양광발전 패널의 공장 지붕 설치에 따른 냉방 및 난방 부하 변화량 연구)

  • Jo, Ho-Hyeon;Kim, Jung-Min;Kim, Young Il
    • Journal of the Korean Society for Geothermal and Hydrothermal Energy
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    • v.16 no.4
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    • pp.9-15
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    • 2020
  • In this study, effect of reinforced insulation on heating and cooling loads were studied due to installation of PV panels on factory building roof with a floor area of 12,960 m2. For PV panel installation, combination of aluminum, polyurethane, air, polystyrene and steel materials were added to the original roof, which increased thermal insulation performance. Half of the roof were covered with PV panel and the other half without. Temperature and relative humidity were measured for 8 days during summer season for both indoor spaces. PV panel showed the effect of lowering the indoor space temperature by 0.6℃. TRNSYS dynamic simulation showed that with PV panel, cooling load per area is reduced by 1.7 W/m2 and heating by 10.0 W/m2. PV panels installed on building roof not only generate electricity but also can save energy by reducing cooling and heating loads.

A Study on the Optimal Voltage for MPPT Obtained by only Surface's Temperature of Solar Cell (태양전지 온도 센싱만을 통한 태양광 발전시스템의 최적 운전전압에 관한 연구)

  • Minwon Park;In-Keun Yi
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.53 no.4
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    • pp.269-275
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    • 2004
  • Photovoltaic(PV) system has been studied and watched with keen interest due to a clean and renewable power source. But, the output power of PV system is not only unstable but uncontrollable, because the maximum power point tracking (MPPT) of PV system is still hard with the tracking failure under the sudden fluctuation of irradiance. Authors suggest that the optimal voltage for MPPT be obtained by only solar cell temperature. Having an eye on that the optimal voltage point of solar cell is in proportion to its panel temperature, with operating the power converter whose operating point keeps its input voltage to the optimal voltage imagined by the surface's temperature of PV panel, the maximum power point becomes tenderly possible to be tracked. In order to confirm the availability of the proposed control scheme. And both control methods are simulated not only on the various angle of sampling time of switching control, but also with the real field weather condition. As the results of that, the conversion efficiency between PV panel and converter of the proposed control scheme was much better than that of the power comparison MPPT control, and what is better, the output voltage of PV panel was extremely in stable when the optimal voltage for MPPT is obtained by only solar cell temperature.

Analysis on Generation Power according to Connection Structure for PV Panel under Shadow Condition (그림자 조건에서 태양광 패널의 접속구조에 따른 발전량 분석)

  • Jeong, Woo-Yong;Kim, Yong-Jung;Kim, Hyosung
    • The Transactions of the Korean Institute of Power Electronics
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    • v.25 no.2
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    • pp.94-102
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    • 2020
  • Considering that the output voltage and current of a single PV panel are limited in PV power generation, a PV array should be constructed by connecting several PV panels in series and parallel to meet the required voltage/power levels for power generation capacity. When a PV array is partially shaded, the maximum power generation depends on the configuration of a PV array and the presence or absence of blocking diodes. This study considers six PV array configurations and the presence or absence of blocking diodes. An optimum connection structure was proposed to maximize power generation in a partial shadow condition. Results were verified through simulation and an experiment.