A Prototype Design and Development of the Smart Photovoltaic System Blind Considering the Photovoltaic Panel, Tracking System, and Monitoring System

Jeong, Kwangbok; Hong, Taehoon; Koo, Choongwan; Oh, Jeongyoon; Lee, Minhyun; Kim, Jimin

doi:10.3390/app7101077

Cited by 15 publications

(6 citation statements)

References 40 publications

(59 reference statements)

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“…Jeong et al [17] introduced a smart photovoltaic system blindly. The study defines the design properties in three ways: the photovoltaic panel, the tracking system and the monitoring system.…”

Section: Literature Reviewmentioning

confidence: 99%

A Low-Cost, Real-Time Rooftop IoT-Based Photovoltaic (PV) System for Energy Management and Home Automation

Uzair¹,

Al-Kafrawi²,

Al-Janadi³

et al. 2022

Energy Engineering

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Section: Literature Reviewmentioning

confidence: 99%

A Low-Cost, Real-Time Rooftop IoT-Based Photovoltaic (PV) System for Energy Management and Home Automation

Uzair¹,

Al-Kafrawi²,

Al-Janadi³

et al. 2022

Energy Engineering

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“…The modules with high shading should be replaced with modules that would be exposed to more light. In this project, these analyses were performed using the PV * SOL program [37][38][39][40][41].…”

Section: Introductionmentioning

confidence: 99%

Technoeconomic Performance Analysis of Solar Tracking Methods for Roof-Type Solar Power Plants and Electric Vehicle Charging Stations

Boyekin

Kıyak

2021

International Journal of Photoenergy

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In building integrated photovoltaic (BIPV) solar energy projects, cost effectiveness, durability, and long-term reliability are among the criteria that should be taken into consideration as well as the gain in electricity generation efficiency. Also, in a study, it is stated that a dual-axis solar tracking system occupies approximately 100% more space than a single-axis system and 160% more than a fixed-angle system. It has been observed that most of the studies that are mounted on the building and include a tracking system are small-scale experimental studies. The aim of this article is to present a systematic analysis with a low investment cost, a low operating cost, and high reliability, in a real application especially for roof applications in buildings. Three buildings in the same location and with the same roof area were selected. Photovoltaic power plants with 23.68 kW power were installed; these panels had three types: fixed-angle, manually controlled, and single-axis solar tracking systems. The energy generation system is connected to the network with a double-sided meter, and there is a double-sided energy flow. The energy produced is used to meet the energy needs of the vehicle charging station and common areas of the buildings. Although the single-axis tracking system is 27.85% more efficient than other energy generation methods, the manually adjusted method has proven to have the shortest amortization time. The study also presents shading, which is a serious problem in large-scale roof projects, and the area covered by the module per unit watt produced.

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“…1 BIPV using crystalline silicon panels (Si-PV), however, is limited to rooops or, to a lower extent, to façades due to the aesthetical impact on the building landscape. 2 The transparency of crystalline Si-PV is typically tailored by controlling the space between cells or reducing the active area by creating holes in the module. 3 While these approaches could, in an ideal case, enable to retain some efficiency and transparency, Si-PV have some important limitations when integrated into façades.…”

Section: Introductionmentioning

confidence: 99%

Towards photovoltaic windows: scalable fabrication of semitransparent modules based on non-fullerene acceptors via laser-patterning

et al. 2020

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A Prototype Design and Development of the Smart Photovoltaic System Blind Considering the Photovoltaic Panel, Tracking System, and Monitoring System

Cited by 15 publications

References 40 publications

A Low-Cost, Real-Time Rooftop IoT-Based Photovoltaic (PV) System for Energy Management and Home Automation

A Low-Cost, Real-Time Rooftop IoT-Based Photovoltaic (PV) System for Energy Management and Home Automation

Technoeconomic Performance Analysis of Solar Tracking Methods for Roof-Type Solar Power Plants and Electric Vehicle Charging Stations

Towards photovoltaic windows: scalable fabrication of semitransparent modules based on non-fullerene acceptors via laser-patterning

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