一种新型光伏组件单二极管模型求解算法分类方法
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摘要
本文提出了一种新型的光伏组件单二极管模型参数求解算法的分类方法。依据光伏组件单二极管模型所增求解条件特征以及模型参数计算方法特征,将光伏组件单二极管模型所增求解条件方法分类为经验取值法、理论推导法和曲线斜率法,将模型参数计算方法分类为解析法、方程组法以及匹配法。为光伏组件单二极管模型的算法理论研究提供了一种有效且实用的算法分类方法。
This paper proposed anovel classification method for the solving parameters of single diode modelof photovoltaic module. According to the characteristics of the added solution conditions andthe calculation methods of model parameters,the methods of the conditions added to the photovoltaic module single diode model are classified as the empirical value method, the theoretical derivation method and the curve slope method, and the calculation methods of model parameters are classified as the analytical method, the equations method and the matching method.It provides an effective and practical algorithm classification method for the algorithm theory research of photovoltaic module single diode model.
This paper proposed anovel classification method for the solving parameters of single diode modelof photovoltaic module. According to the characteristics of the added solution conditions andthe calculation methods of model parameters,the methods of the conditions added to the photovoltaic module single diode model are classified as the empirical value method, the theoretical derivation method and the curve slope method, and the calculation methods of model parameters are classified as the analytical method, the equations method and the matching method.It provides an effective and practical algorithm classification method for the algorithm theory research of photovoltaic module single diode model.
引文
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[2]张士顺,陈栋.一种光伏组件5参数模型求解算法[J].信息化研究,2018(44).
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[4]MajdoulR,Abdelmounim E,Aboulfatah M, et al.Combined analytical and numerical approach to determine the four parameters of the photovoltaic cells models[C]//International Conference on Electrical&Information Technologies.IEEE, 2015.
[5]Ayodele T R,Ogunjuyigbe A S O,Ekoh E E.Evaluation of numerical algorithms used in extracting the parameters of a single-diode photovoltaic model[J].Sustainable Energy Technologies and Assessments,2016,13:51-59.
[6]Vika,HavardBreisnes. Modelling of Photovoltaic Modules with Battery Energy Storage in Simulink/Matlab:With in-situ measurement comparisons[J].Institutt for Elkraftteknikk, 2014.
[7]Accarino J,Petrone G, Ramos-Paja C A, et al. Symbolic Algebra for the Calculation of the Series and Parallel Resistances in PV module model[J].in Proc. Int. Conf.Clean Electr. Power, 2013:62-66.
[8]Nassar-EddineI,Obbadi A, Errami Y, et al. Parameter estimation of photovoltaic modules using iterative method and the Lambert W function:A comparativestudy[J].Energy Conversion&Management,2016,119:37-48.
[9]FarivarG,Asaei B.Photovoltaic module single diode model parameters extraction based on manufacturer datasheet parameters[C]//IEEE International Conference on Power&Energy. IEEE, 2010:929-934.
[10] Green M A. Accuracy of analytical expressions for solar cell fill factors[J].Solar Cells, 1982, 7(3):337-340.
[11]Saleem A K M,Manimaran S.A new method for accurate estimation of PV module parameters and extraction of maximum power point under varying environmental conditions[J].TURKISH JOURNAL OF ELECTRICAL ENGINEERING&COMPUTER SCIENCES, 2016, 24:2028-2041.
[12]SENTURK, Ali. New method for computing single diode model parameters of photovoltaic modules[J].Renewable Energy, 128,30-36.
[13]F. Ghani, M. Duke, J. Carson, Numerical calculation of series and shunt resistances and diode quality factor of a photovoltaic cell using the Lambert W-function[J].Solar Energy 91(2013):422-431.
[14]Wang G, Zhao K, Shi J, et al. An iterative approach for modeling photovoltaic modules without implicit equations[J].Applied Energy, 2017, 202:189-198.
[2]张士顺,陈栋.一种光伏组件5参数模型求解算法[J].信息化研究,2018(44).
[3]Villalva MG, Gazoli JR, Filho ER. Comprehensiveapproach to modeling and simulation of photovoltaic arrays[J].IEEE Trans Power Electron,2009(24):1198-208.
[4]MajdoulR,Abdelmounim E,Aboulfatah M, et al.Combined analytical and numerical approach to determine the four parameters of the photovoltaic cells models[C]//International Conference on Electrical&Information Technologies.IEEE, 2015.
[5]Ayodele T R,Ogunjuyigbe A S O,Ekoh E E.Evaluation of numerical algorithms used in extracting the parameters of a single-diode photovoltaic model[J].Sustainable Energy Technologies and Assessments,2016,13:51-59.
[6]Vika,HavardBreisnes. Modelling of Photovoltaic Modules with Battery Energy Storage in Simulink/Matlab:With in-situ measurement comparisons[J].Institutt for Elkraftteknikk, 2014.
[7]Accarino J,Petrone G, Ramos-Paja C A, et al. Symbolic Algebra for the Calculation of the Series and Parallel Resistances in PV module model[J].in Proc. Int. Conf.Clean Electr. Power, 2013:62-66.
[8]Nassar-EddineI,Obbadi A, Errami Y, et al. Parameter estimation of photovoltaic modules using iterative method and the Lambert W function:A comparativestudy[J].Energy Conversion&Management,2016,119:37-48.
[9]FarivarG,Asaei B.Photovoltaic module single diode model parameters extraction based on manufacturer datasheet parameters[C]//IEEE International Conference on Power&Energy. IEEE, 2010:929-934.
[10] Green M A. Accuracy of analytical expressions for solar cell fill factors[J].Solar Cells, 1982, 7(3):337-340.
[11]Saleem A K M,Manimaran S.A new method for accurate estimation of PV module parameters and extraction of maximum power point under varying environmental conditions[J].TURKISH JOURNAL OF ELECTRICAL ENGINEERING&COMPUTER SCIENCES, 2016, 24:2028-2041.
[12]SENTURK, Ali. New method for computing single diode model parameters of photovoltaic modules[J].Renewable Energy, 128,30-36.
[13]F. Ghani, M. Duke, J. Carson, Numerical calculation of series and shunt resistances and diode quality factor of a photovoltaic cell using the Lambert W-function[J].Solar Energy 91(2013):422-431.
[14]Wang G, Zhao K, Shi J, et al. An iterative approach for modeling photovoltaic modules without implicit equations[J].Applied Energy, 2017, 202:189-198.