A Review for Solar Panel Fire Accident Prevention in Large-Scale PV Applications

Wu, Zuyu; Hu, Yihua; Wen, Jennifer X.; Zhou, Fang; Ye, Xianming

doi:10.1109/access.2020.3010212

Cited by 60 publications

(33 citation statements)

References 59 publications

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“…Los disyuntores de AC son dispositivos que pueden interrumpir las contribuciones de energía de las fuentes de AC, pero las contribuciones de falla de las fuentes de corriente continua no pueden ser interrumpidas por los disyuntores AC. Además, los disyuntores AC son dispositivos de respuesta muy lentos, tardan varios milisegundos en interrumpir las fallas de las fuentes de AC [15]. Si la apertura de los disyuntores AC es lenta, las corrientes de falla DC pueden aumentar a niveles altos, causando daños a los dispositivos electrónicos de alimentación, para solucionar este problema en los últimos años se ha propuesto la inserción de disyuntores DC de alta velocidad para la protección de la red de distribución DC [15].…”

Section: Red De Distribución De Corriente Continua De Medio Voltaje (Mvdc)unclassified

“…El proceso de generación de energía se describe mediante la recepción de radiación solar en los módulos fotovoltaicos, luego la energía es trasportada hacia el regulador, el cual tiene la función de nivelar el voltaje para los procesos posteriores, el almacenamiento de la energía se lo realiza en el banco de batería, hecho esto, la energía eléctrica en DC se transporta hacia el inversor, el cual, mediante la utilización de electrónica de potencia, convierte la energía DC en energía AC [15]. La Fig.…”

Section: Generación Fotovoltaicaunclassified

“…3 muestra la estructura y elementos de un sistema fotovoltaico que permite generar energía eléctrica. En la actualidad la generación de Energía Solar Fotovoltaica (FV) esta aumentado a pasos acelerados en el sector de la energía eléctrica mundial [15]. Esto se debe a la reducción en el costo de los paneles solares, avance en la electrónica de potencia y la mejora en la eficiencia de los mismos.…”

Section: Generación Fotovoltaicaunclassified

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Location of solar panels to the medium voltage direct current distribution network considering DC loads

Minchala¹,

Valenzuela²

2021

ITECKNE

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The penetration of renewable energies of Direct Current (DC) to the Distribution Network of Direct Current of Medium Voltage (MVDC) is already a reality. Therefore, extensive planning is required for its location in the electrical network. The implementation of this energy brings great advantages to the system since it contributes to the reduction of losses, improvement of the voltage profile, greater reliability in the system since there is generation of the photovoltaic system installed and of the distribution company. This article was carried out through a bibliographic review of the bases IEEE Xplore, Science Direct, Taylor & Francis and related academic knowledge, identifying several positive and negative aspects of this new reality of renewable energy, in the same way it was analyzed the Energy Storage System (BESS) and the impact of Electric Vehicles (EV) on distribution networks.

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Section: Red De Distribución De Corriente Continua De Medio Voltaje (Mvdc)unclassified

Section: Generación Fotovoltaicaunclassified

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Location of solar panels to the medium voltage direct current distribution network considering DC loads

Minchala¹,

Valenzuela²

2021

ITECKNE

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“…They are essential for monitoring both indoors and outdoors for fire signatures such as smoke, heat, and radiation, and to identify early signs of fires to trigger appropriate responses. Significant progress has been made with these technologies in the last decades in part due to advances in sensor design and related technology [1][2][3][4][5][6][7][8]. Nonetheless, important challenges with fire detection remain, and these can roughly be subsumed under two broad headings, insufficient sensitivity on the one hand, and elevated false alarm rates on the other hand [9].…”

Section: Introductionmentioning

confidence: 99%

Tackling Small Data Challenges in Visual Fire Detection: A Deep Convolutional Generative Adversarial Network Approach

Guo

Saleh

2021

IEEE Access

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“…Photovoltaic (PV) power generation is consisted of one or more PV modules combined with PV inverter that use energy from the sunlight to generate electricity [1]. PV systems can vary greatly in size from residential to massive utility scale PV plants [2][3]. Especially, residential PV has been becoming more popular since its prices have been reduced and its power is averaged around 5 [kW].…”

Section: Introductionmentioning

confidence: 99%

Analysis of PV Characteristics for Residential Application under Partial Shading Conditions

Yu¹,

Ko²

2020

International Journal of Engineering Research and Technology

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A Review for Solar Panel Fire Accident Prevention in Large-Scale PV Applications

Cited by 60 publications

References 59 publications

Location of solar panels to the medium voltage direct current distribution network considering DC loads

Location of solar panels to the medium voltage direct current distribution network considering DC loads

Tackling Small Data Challenges in Visual Fire Detection: A Deep Convolutional Generative Adversarial Network Approach

Analysis of PV Characteristics for Residential Application under Partial Shading Conditions

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