METHODS OF THERMAL SYSTEM ANALYSIS AND RESULTS OF EXPERIMENTATION OF PHOTOVOLTAIC MODULES BUILT INTO A BUILDING

Authors

  • Nasrullayev Yusuf Zokirovich Karshi Engineering-Economics Institute

Keywords:

simulator, solar panel, environment, air, temperature, solar radiation, amount of heat, heat supply

Abstract

The use of building-integrated photovoltaic panel systems is treated in the literature
taking into account the current state of research in this field. In this article, the entire research work is divided into two different phases. The first stage is the development of a system of photovoltaic
modules in a standard state, used in buildings. In the second stage, the characteristics of the
experimental installations used to measure the thermal and electrical parameters of photovoltaic
panels in the standard state were studied. The main movement of heat, or heat loss, within a building
is based on energy efficiency. 

References

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.

Yu.Z.Nasrullayev, “Quyosh batareyalarni parametrlari o‘lchash uchun kichik o‘lchamli quyosh

simulyatorining nurlanish xarakteristikasi,” Innov. texnologiyalar, Maxsus son, 2022, ISSN

-4732, pp. 118–121.

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.

, no. 1, pp. 17–28, 2007, doi: 10.1016/j.solmat.2006.06.061.

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.

Yang.Tingting, “A numerical and experimental investigation of enhanced open - loop airbased Building - Integrated Photovoltaic / Thermal systems,” Build. Civ. Environ. Eng.

Present., 2015.

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.

, no. September 2016, pp. 944–953, 2017, doi: 10.1016/j.egypro.2017.03.257.

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:

1016/j.enconman.2018.11.036.

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.

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.

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.

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Published

2024-04-13

How to Cite

Nasrullayev, Y. (2024). METHODS OF THERMAL SYSTEM ANALYSIS AND RESULTS OF EXPERIMENTATION OF PHOTOVOLTAIC MODULES BUILT INTO A BUILDING. Innovatsion Texnologiyalar , 52(04). Retrieved from https://ojs.qmii.uz/index.php/it/article/view/702

Issue

Vol. 52 No. 04 (2023): INNOVATSION TEXNOLOGIYALAR(Maxsus son)

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Статьи

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