|
Qarshi muhandislik-iqtisodiyotBog'liq 1. Ж.Н.Узоқов MAXSUS SON 2023-1 мақола нашрга чиқди.Xulosa
Ushbu maqola havo oqimi va fotoelektrik modullari o‘rtasida issiqlik o‘tkazuvchanligini
yaxshilash uchun bir nechta kirish joylaridan foydalanadigan, binoga integratsiya qilingan
fotoelektrik panellarning issiqlik tizimlari uchun takomillashtirilgan qurulma konsepsiyasi ishlab
chiqilgan. Binoga integratsiya qilingan fotoelektrik panellarning issiqlik tizimlarining eksperimental
prototiplari qurildi va quyosh simulyatori kontseptsiyasining amalga oshirilishini va uning issiqlik
uzatish
xususiyatlarini
o‘rganish
uchun
foydalanildi
[10].
Eksperimental
prototiplar
o‘tkazuvchanlikning tizimni ishlashiga ta’sirini o‘rganish uchun ikki turdagi shaffof va shaffof
bo‘lmagan
moslashtirilgan ramkasiz
monokristalli kremniyli
fotoelektrik modullaridan
foydalanilgan. Natijalar quyidagicha umumlashtirildi:
Binoga integratsiya qilingan fotoelektrik panellarning issiqlik tizimi, issiqlik samaradorligini
bir kirishmali tizimgaga nisbatan 5% ga oshirishi mumkin va amalga oshirish oson va arzon;
Binoga integratsiya qilingan fotoelektrik panellarning issiqlik tizimining issiqlik ko‘rsatkichlari
binoga integratsiya qilingan fotoelektrik panellarning issiqlik tizimining bo‘shlig‘idagi pastki
yuzasida ba’zi quyosh nurlanishining yutilishi tufayli shaffof bo‘lmaganlar o‘rniga shaffof kristalli
kremniyli fotoelektrik modullarini qo‘llash orqali sezilarli darajada samaradorligini oshirish
mumkin [5].
Foydalangan adаbiyotlаr
[1]
D. Bigot. F. Miranville. A. H. Fakra. I. Ingar. S. Guichard and H. Boyer., “Thermal
Performance of Photovoltaic Systems Integrated in Buildings,”
Sol. Collect. Panels, Theory
Appl.
, 2010, doi: 10.5772/10347.
[2]
Yu.Z.Nasrullayev, “Quyosh batareyalarni parametrlari o‘lchash uchun kichik o‘lchamli quyosh
simulyatorining nurlanish xarakteristikasi,”
Innov. texnologiyalar, Maxsus son, 2022, ISSN
2181-4732
, pp. 118–121.
[3]
A. Tiwari and M. S. Sodha, “Parametric study of various configurations of hybrid PV/thermal
air collector: Experimental validation of theoretical model,”
Sol. Energy Mater. Sol. Cells
, vol.
91, no. 1, pp. 17–28, 2007, doi: 10.1016/j.solmat.2006.06.061.
[4]
Sauer K.J. Roessler T. & Hansen C.W. (2015)., “Modeling the Irradiance and Temperature
Dependence of Photovoltaic Modules in PVsyst. Photovoltaics.,”
Photovoltaics. IEEE
Journal; 5(1), pp.152–158.
[5]
Yang.Tingting, “A numerical and experimental investigation of enhanced open - loop air-
based Building - Integrated Photovoltaic / Thermal systems,”
Build. Civ. Environ. Eng.
Present.
, 2015.
[6]
F. Spertino, J. Ahmad, A. Ciocia, and P. Di Leo, “Techniques and Experimental Results for
Performance Analysis of Photovoltaic Modules Installed in Buildings,”
Energy Procedia
, vol.
111, no. September 2016, pp. 944–953, 2017, doi: 10.1016/j.egypro.2017.03.257.
[7]
L. Zhu, Q. Li, M. Chen, K. Cao, and Y. Sun, “A simplified mathematical model for power
output predicting of Building Integrated Photovoltaic under partial shading conditions,”
Energy Convers. Manag.
, vol. 180, no. November 2018, pp. 831–843, 2019, doi:
10.1016/j.enconman.2018.11.036.
[8]
Akinyele D. Belikov J. Levron Y., “Battery Storage Technologies for Electrical Applications:
Impact in Stand-Alone Photovoltaic Systems.,” doi: https://doi.org/10.3390/en10111760.
[9]
A.G. Komilov. Yu.Z. Nasrullaev., “Influence of the Ambient on the Parameters of a
Photovoltaic and Photovoltaic-thermal Converter Based on CIGS in Real Conditions,”
Appl.
Sol. Energy
, vol. 57, no. 1, pp. 16–22, 2021.
[10] A. H. Fanney, B. P. Dougherty, and M. W. Davis, “Performance and characterization of
building integrated photovoltaic panels,”
Conf. Rec. IEEE Photovolt. Spec. Conf.
, no.
December, pp. 1493–1496, 2002, doi: 10.1109/pvsc.2002.1190893.
INNOVATSION TEXNOLOGIYALAR Maxsus son, 2023-yil, dekabr
ISSN 2181-4732
62
UO‘K
|
| |
