V. V. Khoroshko, V. F. Gremenok, E. N. Shneiderov, A. S. Tereshkova, O. A. Aksenov, N. M. Bruj, “Polycrystalline solar cells electrical characteristics forecasting based on their degradation models”, PFMT, 2020, no. 1(42), 61

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Problemy Fiziki, Matematiki i Tekhniki (Problems of Physics, Mathematics and Technics), 2020, Issue 1(42), Pages 61–64 (Mi pfmt697)

PHYSICS

Polycrystalline solar cells electrical characteristics forecasting based on their degradation models

V. V. Khoroshko^a, V. F. Gremenok^b, E. N. Shneiderov^a, A. S. Tereshkova^a, O. A. Aksenov^a, N. M. Bruj^a

^a Belarusian State University of Informatics and Radioelectronics, Minsk
^b Scientific and Practical Materials Research Centre of NAS Belarus, Minsk

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Abstract: In this paper we present the results of accelerated tests B class based solar cells. It is established that the self-similarity of the experiment is observed at temperatures up to 150–160

$^\circ$ C and lighting levels up to 2000 W/m

$^2$ . During over 168 h of accelerated testing the relative degradation of efficiency was 5,8%. The pattern of degradation of the duty cycle (

$ff$ ) and short-circuit current (

$I_{sc}$ ) of the solar cells at the initial and final time points of the tests is established.

Keywords: polycrystalline solar cells, tests, degradation models, renewable energy sources.

Funding agency	Grant number
Belarusian Republican Foundation for Fundamental Research	Т19М-037

Received: 29.10.2019

Document Type: Article

UDC: 621.383.51-048.24

Language: Russian

Citation: V. V. Khoroshko, V. F. Gremenok, E. N. Shneiderov, A. S. Tereshkova, O. A. Aksenov, N. M. Bruj, “Polycrystalline solar cells electrical characteristics forecasting based on their degradation models”, PFMT, 2020, no. 1(42), 61–64

Citation in format AMSBIB

\Bibitem{KhoGreShn20}

\by V.~V.~Khoroshko, V.~F.~Gremenok, E.~N.~Shneiderov, A.~S.~Tereshkova, O.~A.~Aksenov, N.~M.~Bruj

\paper Polycrystalline solar cells electrical characteristics forecasting based on their degradation models

\jour PFMT

\yr 2020

\issue 1(42)

\pages 61--64

\mathnet{http://mi.mathnet.ru/pfmt697}

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References:	30

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