EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL

EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL

On a sunny day, the front side of the bifacial solar cells absorbs direct light and the back part absorbs diffused one. The effects of diffused and direct light and temperature on planar and optimally textured solar cells were studied by simulation. It was found that the temperature coefficient of t...

Повний опис

Збережено в:
Бібліографічні деталі
Дата:2025
Автори: Aliev , R., Komilov , M., Gulomova , I., Mirzaalimov , A., Mirzaalimov , N., Aliev , S., Gulomov , J.
Формат: Стаття
Мова:Ukrainian
Опубліковано: Institute of Renewable Energy National Academy of Sciences of Ukraine 2025
Теми:
silicon solar cell
texture
diffuse light
direct light
temperature
thermal coefficient.
Онлайн доступ:https://ve.org.ua/index.php/journal/article/view/530
Теги: Додати тег
Немає тегів, Будьте першим, хто поставить тег для цього запису!
Назва журналу:Vidnovluvana energetika

Репозитарії

Vidnovluvana energetika
id veorgua-article-530
record_format ojs
spelling veorgua-article-5302025-08-16T18:58:02Z EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL Aliev , R. Komilov , M. Gulomova , I. Mirzaalimov , A. Mirzaalimov , N. Aliev , S. Gulomov , J. silicon solar cell, texture, diffuse light, direct light, temperature, thermal coefficient. silicon solar cell, texture, diffuse light, direct light, temperature, thermal coefficient. On a sunny day, the front side of the bifacial solar cells absorbs direct light and the back part absorbs diffused one. The effects of diffused and direct light and temperature on planar and optimally textured solar cells were studied by simulation. It was found that the temperature coefficient of the textured solar cell has the lowest value when illuminated from both sides. In particular, the temperature coefficient of the optimal textured solar cell under front, rear and both side illumination is -6.31e-3 K, 6.47e-3 K-1 and -6.00e-3 K-1, respectively. On a sunny day, the front side of the bifacial solar cells absorbs direct light and the back part absorbs diffused one. The effects of diffused and direct light and temperature on planar and optimally textured solar cells were studied by simulation. It was found that the temperature coefficient of the textured solar cell has the lowest value when illuminated from both sides. In particular, the temperature coefficient of the optimal textured solar cell under front, rear and both side illumination is -6.31e-3 K, 6.47e-3 K-1 and -6.00e-3 K-1, respectively. Institute of Renewable Energy National Academy of Sciences of Ukraine 2025-06-30 Article Article application/pdf https://ve.org.ua/index.php/journal/article/view/530 10.36296/1819-8058.2025.2(81).97-105 Возобновляемая энергетика; № 2(81) (2025): Scientific and applied Journal renewable energy ; 97-105 Відновлювана енергетика; № 2(81) (2025): Науково-прикладний журнал Відновлювана енергетика; 97-105 Vidnovluvana energetika ; No. 2(81) (2025): Scientific and applied Journal renewable energy ; 97-105 2664-8172 1819-8058 10.36296/1819-8058.2025.2(81) uk https://ve.org.ua/index.php/journal/article/view/530/438 Copyright (c) 2025 Vidnovluvana energetika
institution Vidnovluvana energetika
baseUrl_str
datestamp_date 2025-08-16T18:58:02Z
collection OJS
language Ukrainian
topic silicon solar cell
texture
diffuse light
direct light
temperature
thermal coefficient.
spellingShingle silicon solar cell
texture
diffuse light
direct light
temperature
thermal coefficient.
Aliev , R.
Komilov , M.
Gulomova , I.
Mirzaalimov , A.
Mirzaalimov , N.
Aliev , S.
Gulomov , J.
EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
topic_facet silicon solar cell
texture
diffuse light
direct light
temperature
thermal coefficient.
silicon solar cell
texture
diffuse light
direct light
temperature
thermal coefficient.
format Article
author Aliev , R.
Komilov , M.
Gulomova , I.
Mirzaalimov , A.
Mirzaalimov , N.
Aliev , S.
Gulomov , J.
author_facet Aliev , R.
Komilov , M.
Gulomova , I.
Mirzaalimov , A.
Mirzaalimov , N.
Aliev , S.
Gulomov , J.
author_sort Aliev , R.
title EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
title_short EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
title_full EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
title_fullStr EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
title_full_unstemmed EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
title_sort effect of temperature on the properties of a bifacial textured solar cell
title_alt EFFECT OF TEMPERATURE ON THE PROPERTIES OF A BIFACIAL TEXTURED SOLAR CELL
description On a sunny day, the front side of the bifacial solar cells absorbs direct light and the back part absorbs diffused one. The effects of diffused and direct light and temperature on planar and optimally textured solar cells were studied by simulation. It was found that the temperature coefficient of the textured solar cell has the lowest value when illuminated from both sides. In particular, the temperature coefficient of the optimal textured solar cell under front, rear and both side illumination is -6.31e-3 K, 6.47e-3 K-1 and -6.00e-3 K-1, respectively.
publisher Institute of Renewable Energy National Academy of Sciences of Ukraine
publishDate 2025
url https://ve.org.ua/index.php/journal/article/view/530
work_keys_str_mv AT alievr effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT komilovm effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT gulomovai effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT mirzaalimova effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT mirzaalimovn effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT alievs effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
AT gulomovj effectoftemperatureonthepropertiesofabifacialtexturedsolarcell
first_indexed 2025-07-17T11:40:01Z
last_indexed 2025-09-17T09:27:36Z
_version_ 1850411723938332672

Схожі ресурси