Obtaining small photovoltaic array operational curves for arbitrary cell temperatures and solar irradiation densities from standard conditions data

被引:17
作者
Averbukh, Moshe [1 ]
Lineykin, Simon [2 ]
Kuperman, Alon [3 ]
机构
[1] Ben Gurion Univ Negev, Inst Dryland Environm Res, IL-84105 Beer Sheva, Israel
[2] Ariel Univ Ctr Samaria, Dept Mech Engn & Mechatron, Ariel, Israel
[3] Ariel Univ Ctr Samaria, Dept Elect Engn & Elect, Ariel, Israel
来源
PROGRESS IN PHOTOVOLTAICS | 2013年 / 21卷 / 05期
关键词
photovoltaic panel; I-V curve estimation; numerical solution; PARAMETER EXTRACTION METHOD; MODEL PARAMETERS; PV MODULES; TECHNOLOGIES; SIMULATION;
D O I
10.1002/pip.2199
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
The paper presents a simple approach to deriving I-V curves of photovoltaic panels and small arrays for arbitrary environmental conditions on the basis of three points of a single operating curve data and short current temperature coefficient only. The proposed method does not employ fitting of any type and is solely based on a numerical solution of a system of transcendental equations. The equations are expressed in a dimensionless form, simplifying both the solution and photovoltaic panel parameters' representation. The solution is used to find the values of normalized equivalent circuit elements for the available data and then perform an appropriate adjustment to obtain the operating curves for arbitrary conditions. The proposed method was applied to monocrystalline and polycrystalline commercial solar panels and was compared with both manufacturer-provided and experimentally measured operating curves to analyze the approach applicability and accuracy. Copyright (c) 2012 John Wiley & Sons, Ltd.
引用
收藏
页码:1016 / 1024
页数:9
相关论文
共 29 条
[1]   Characterization and Testing of a Tool for Photovoltaic Panel Modeling [J].
Adamo, Francesco ;
Attivissimo, Filippo ;
Di Nisio, Attilio ;
Spadavecchia, Maurizio .
IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2011, 60 (05) :1613-1622
[2]   Comparative Evaluation of Maximum Power Point Tracking Methods for Photovoltaic Systems [J].
Azevedo, G. M. S. ;
Cavalcanti, M. C. ;
Oliveira, K. C. ;
Neves, F. A. S. ;
Lins, Z. D. .
JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME, 2009, 131 (03) :0310061-0310068
[3]   A single procedure for helping PV designers to select silicon PV modules and evaluate the loss resistances [J].
Carrero, C. ;
Amador, J. ;
Arnaltes, S. .
RENEWABLE ENERGY, 2007, 32 (15) :2579-2589
[4]   Accurate and fast convergence method for parameter estimation of PV generators based on three main points of the I-V curve [J].
Carrero, C. ;
Ramirez, D. ;
Rodriguez, J. ;
Platero, C. A. .
RENEWABLE ENERGY, 2011, 36 (11) :2972-2977
[5]   Modelling and experimental verification of the operating current of mono-crystalline photovoltaic modules using four- and five-parameter models [J].
Celik, Ali Naci ;
Acikgoz, Nasir .
APPLIED ENERGY, 2007, 84 (01) :1-15
[6]   Simple parameter extraction method for illuminated solar cells [J].
Chegaar, M. ;
Azzouzi, G. ;
Mialhe, P. .
SOLID-STATE ELECTRONICS, 2006, 50 (7-8) :1234-1237
[7]  
Chegaar M., 2008, Journal of Electron Devices, V6, P173
[8]   Improvement and validation of a model for photovoltaic array performance [J].
De Soto, W ;
Klein, SA ;
Beckman, WA .
SOLAR ENERGY, 2006, 80 (01) :78-88
[9]   Comparison of photovoltaic array maximum power point tracking techniques [J].
Esram, Trishan ;
Chapman, Patrick L. .
IEEE TRANSACTIONS ON ENERGY CONVERSION, 2007, 22 (02) :439-449
[10]   Development of a photovoltaic array model for use in power-electronics simulation studies [J].
Gow, JA ;
Manning, CD .
IEE PROCEEDINGS-ELECTRIC POWER APPLICATIONS, 1999, 146 (02) :193-200