Titre :	Optimization of photovoltaic power systems : modelization, simulation and control
Type de document :	texte imprimé
Auteurs :	Djamila Rekioua, Auteur ; Ernest Matagne, Auteur
Editeur :	New York, Dordrecht, Heidelberg : Springer
Année de publication :	2012
Collection :	Green energy and technology
Importance :	283 p.
Présentation :	couv. ill. en coul., ill.
Format :	23,3 cm.
ISBN/ISSN/EAN :	978-1-447-12348-4
Langues :	Anglais (eng)
Index. décimale :	21-04 L'énergie solaire
Résumé :	Photovoltaic generation is one of the cleanest forms of energy conversion available. One of the advantages offered by solar energy is its potential to provide sustainable electricity in areas not served by the conventional power grid. Optimisation of Photovoltaic Power Systems details explicit modelling, control and optimisation of the most popular stand-alone applications such as pumping, power supply, and desalination. Each section is concluded by an example using the MATLAB(R) and Simulink(R) packages to help the reader understand and evaluate the performance of different photovoltaic systems. Optimisation of Photovoltaic Power Systems provides engineers, graduate and postgraduate students with the means to understand, assess and develop their own photovoltaic systems. As such, it is an essential tool for all those wishing to specialise in stand-alone photovoltaic systems. Optimisation of Photovoltaic Power Systems aims to enable all researchers in the field of electrical engineering to thoroughly understand the concepts of photovoltaic systems; find solutions to their problems; and choose the appropriate mathematical model for optimising photovoltaic energy.
Note de contenu :	Contents: 1 Photovoltaic Applications Overview 1.1 Photovoltaic Definitions 1.2 Introduction to PV Systems 1.3 System Pre-Sizing 1.4 Feasibility of Photovoltaic Systems 1.5 Maintenance of Photovoltaic Systems 2 Modeling of Solar Irradiance and Cells 2.1 Irradiance Modeling 2.2 PV Array Modeling 3 Power Electronics Modeling 3.1 The Origin of Power Losses in Power Electronic Converters 3.2 The Structures of Converters and the Influence on Their Efficiencies 3.3 Empirical Modeling of the Converters 3.4 Circuit Modeling 3.5 Note on the Nominal Power Choice 3.6 Multi-Agent Systems for the Control of Distributed Energy Systems 4 Optimized Use of PV Arrays 4.1 Introduction to Optimization Algorithms 4.2 Maximum Power Point Tracker Algorithms 4.3 Efficiency of a MPPT Algorithm 4.4 Comparison of Different Algorithms 5 Modeling of Storage Systems 5.1 Description of Different Storage Systems 6 Photovoltaic Pumping Systems 6.1 PV Pumping Systems Based on DC Machines 6.2 PV Pumping Systems Based on AC Motor 6.3 Maximum Power Point Tracking for Solar Water Pump 6.4 Economic Study 7 Hybrid Photovoltaic Systems 7.1 Advantages and Disadvantages of a Hybrid System 7.2 Configuration of Hybrid Systems 7.3 The Different Combinations of Hybrid Systems

Optimization of photovoltaic power systems : modelization, simulation and control [texte imprimé] / Djamila Rekioua, Auteur ; Ernest Matagne, Auteur . - New York, Dordrecht, Heidelberg : Springer, 2012 . - 283 p. : couv. ill. en coul., ill. ; 23,3 cm.. - (Green energy and technology) .
ISBN : 978-1-447-12348-4
Langues : Anglais (eng)

Index. décimale :	21-04 L'énergie solaire
Résumé :	Photovoltaic generation is one of the cleanest forms of energy conversion available. One of the advantages offered by solar energy is its potential to provide sustainable electricity in areas not served by the conventional power grid. Optimisation of Photovoltaic Power Systems details explicit modelling, control and optimisation of the most popular stand-alone applications such as pumping, power supply, and desalination. Each section is concluded by an example using the MATLAB(R) and Simulink(R) packages to help the reader understand and evaluate the performance of different photovoltaic systems. Optimisation of Photovoltaic Power Systems provides engineers, graduate and postgraduate students with the means to understand, assess and develop their own photovoltaic systems. As such, it is an essential tool for all those wishing to specialise in stand-alone photovoltaic systems. Optimisation of Photovoltaic Power Systems aims to enable all researchers in the field of electrical engineering to thoroughly understand the concepts of photovoltaic systems; find solutions to their problems; and choose the appropriate mathematical model for optimising photovoltaic energy.
Note de contenu :	Contents: 1 Photovoltaic Applications Overview 1.1 Photovoltaic Definitions 1.2 Introduction to PV Systems 1.3 System Pre-Sizing 1.4 Feasibility of Photovoltaic Systems 1.5 Maintenance of Photovoltaic Systems 2 Modeling of Solar Irradiance and Cells 2.1 Irradiance Modeling 2.2 PV Array Modeling 3 Power Electronics Modeling 3.1 The Origin of Power Losses in Power Electronic Converters 3.2 The Structures of Converters and the Influence on Their Efficiencies 3.3 Empirical Modeling of the Converters 3.4 Circuit Modeling 3.5 Note on the Nominal Power Choice 3.6 Multi-Agent Systems for the Control of Distributed Energy Systems 4 Optimized Use of PV Arrays 4.1 Introduction to Optimization Algorithms 4.2 Maximum Power Point Tracker Algorithms 4.3 Efficiency of a MPPT Algorithm 4.4 Comparison of Different Algorithms 5 Modeling of Storage Systems 5.1 Description of Different Storage Systems 6 Photovoltaic Pumping Systems 6.1 PV Pumping Systems Based on DC Machines 6.2 PV Pumping Systems Based on AC Motor 6.3 Maximum Power Point Tracking for Solar Water Pump 6.4 Economic Study 7 Hybrid Photovoltaic Systems 7.1 Advantages and Disadvantages of a Hybrid System 7.2 Configuration of Hybrid Systems 7.3 The Different Combinations of Hybrid Systems