Verfügbarkeit: Power electronics and control techniques for maximum energy harvesting in photovoltaic systems

Power electronics and control techniques for maximum energy harvesting in photovoltaic systems:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. CRC, Taylor & Francis 2013
Schriftenreihe:	Industrial electronics series
Schlagworte:	Photovoltaic power systems > Automatic control Power electronics SCIENCE / Energy TECHNOLOGY & ENGINEERING / Electronics / General TECHNOLOGY & ENGINEERING / Power Resources / Electrical Sonnenenergie Sonnenkraftwerk Fotovoltaikanlage Regelung Solartechnik Leistungselektronik
Online-Zugang:	Cover image Inhaltsverzeichnis Klappentext
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XVII, 323 S. Ill., graph. Darst.
ISBN:	9781466506909

Internformat

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Datensatz im Suchindex

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adam_text	Contents Preface ......................................................................................................................xi About the Authors ..............................................................................................xiii 1 PV Modeling ....................................................................................................1 1.1 From the Photovoltaic Cell to the Field ..............................................1 1.2 The Electrical Characteristic of a PV Module ...................................3 1.3 The Double-Diode and Single-Diode Models ...................................7 1.4 From Data Sheet Values to Model Parameters ................................12 1.4.1 Parameters Identification Assuming Rp -*■ co ...................13 1.4.2 Parameters Identification Including Rp ..............................15 1.4.3 Parameters Identification Including Kp: Explicit Solution ..................................................................................16 1.4.4 Other Approaches Proposed in Literature .........................17 1.5 Example: PV Module Equivalent Circuit Parameters Calculation ...........................................................................................20 1.6 The Lambert W Function for Modeling a PV Field .......................22 1.6.1 PV Generator Working in Uniform Conditions ................22 1.6.2 Modeling a Mismatched PV Generator ..............................25 1.7 Example ................................................................................................29 References .......................................................................................................32 2 Maximum Power Point Tracking ...............................................................35 2.1 The Dynamic Optimization Problem ..............................................35 2.2 Fractional Open-Circuit Voltage and Short-Circuit Current ........40 2.3 Soft Computing Methods ..................................................................41 2.4 The Perturb and Observe Approach ................................................42 2.4.1 Performance Optimization: Steady-State and Dynamic Conditions .............................................................45 2.4.2 Rapidly Changing Irrãdiance Conditions ..........................51 2.4.3 P&O Design Example: A PV Battery Charger ...................54 2.5 Improvements of the P&O Algorithm ..............................................62 2.5.1 P&O with Adaptive Step Size ..............................................62 2.5.2 P&O with Parabolic Approximation ...................................63 2.6 Evolution of the Perturbative Method ..................................... .........68 2.6.1 Particle Swarm Optimization (PSO) ...................................68 2.6.2 Extrémům Seeking and Ripple Correlation Techniques ..........................................................................70 2.6.3 The Incremental Conductance Method ..............................71 VII viii Contents 1.7 PV MPPT via Output Parameters.....................................................75 2.7.1 The TEODI Approach ............................................................76 2.8 MPPT Efficiency ..................................................................................81 References .......................................................................................................84 3 MPPT Efficiency: Noise Sources and Methods for Reducing Their Effects ..................................................................................................89 3.1 Low-Frequency Disturbances in Single-Phase Applications ........89 3.1.1 The Perturb and Observe Approach Applied to Closed-Loop Switching Converters ....................................95 3.1.2 Example of P&O Design for a Closed-Loop Boost Converter .................................................................................99 3.2 Instability of the Current-Based MPPT Algorithms ....................104 3.3 Sliding Mode in PV System .............................................................108 3.3.1 Noise Rejection by Sliding Mode: Numerical Example .... 114 3.3.2 MPPT Current Control by Sliding Mode ..........................117 3.3.2.1 Basic Configuration of Sliding Mode with Voltage Controller ................................................117 3.3.2.2 Voltage Controller Design ...................................122 3.3.3 Sliding Mode MPPT Controller: Numerical Example .... 123 3.4 Analysis of the MPPT Performances in a Noisy Environment.... 126 3.4.1 Noise Attenuation by Using Low-Pass Filters .................129 3.4.2 Error Compensation by Increasing the Step Perturbation ..........................................................................131 3.4.3 ADC Quantization Error in the P&O Algorithm: Numerical Example .............................................................134 References .....................................................................................................136 4 Distributed Maximum Power Point Tracking of Photovoltaic Arrays ............................................................................................................139 4.1 Limitations of Standard MPPT .......................................................139 4.2 A New Approach: Distributed MPPT ............................................139 4.2.1 DMPPT by Means of Microinverters ................................140 4.2.2 DMPPT by Means of DC/DC Converters ........................142 4.3 DC Analysis of a PV Array with DMPPT ......................................145 4.3.1 Feasible Operating Regions ................................................145 4.3.2 Examples of Feasible Operating Regions .........................147 4.3.3 I-V and P-V Characteristics of Boost-Based SCPVMs .....152 4.3.4 I-V and P-V Characteristics of Buckboost-Based SCPVMs .................................................................................163 4.4 Optimal Operating Range of the DC Inverter Input Voltage .....177 4.5 AC Analysis of a PV Array with DMPPT ......................................185 4.5.1 AC Model of a Single SCPVM ............................................196 Contents ix 4.5.2 Small-Signal Model of a Photovoltaic Array with DMPPT ..................................................................................208 4.5.3 Stability of a String of SCPVMs .........................................212 References .....................................................................................................244 5 Design of High-Energy-Efficiency Power Converters for PV MPPT Applications ....................................................................................251 5.1 Introduction .......................................................................................251 5.2 Power, Energy, Efficiency .................................................................252 5.3 Energy Harvesting in PV Plant Using DMPPT Power Converters ..............................................................................................258 5.4 Losses in Power Converters .............................................................268 5.5 Losses in the Synchronous FET Switching Cells .........................270 5.6 Conduction Losses ............................................................................272 5.7 Switching Losses ...............................................................................276 5.7.1 Turn ON ................................................................................281 5.7.2 Turn OFF ...............................................................................283 5.7.3 Thermal Analysis .................................................................285 5.7.4 Example .................................................................................290 References .....................................................................................................308 Index .....................................................................................................................311 ... very innovative ... [a] rigorous analytical treatment starting from the modeling of the PV field and the power converter stages as well as the dynamics of the overall system, including MPPT control. This in-depth analytical description allows the design of power converters and DMPPT algorithms improving the overall efficiency of the whole PV system operating under mismatching conditions. — Francese Guinjoan, Polytechnic University of Catalonia ... a concise but complete compendium of the required knowledge to understand, design and control photovoltaic systems. ... also presents most of the recent advances on photovoltaic optimization. — Carlos Andres Ramos Paja, Universidad Nacional de Colombia Filling a gap in the literature, Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems brings together research on control circuits, systems, and techniques dedicated to the maximization of the electrical power produced by a photovoltaic (PV) source. The book reviews recent improvements in connecting PV systems to the grid and highlights solutions that can be used as a starting point for further research and development. Coverage includes methods for modeling a PV array working in uniform and mismatched conditions, achieving the best maximum power point tracking (MPPT) performance, and designing the parameters that affect algorithm performance. The book also addresses how to maximize the energy harvested in mismatched conditions. The final chapter details the design of DC/DC converters, which usually perform the MPPT function, with special emphasis on their energy efficiency. Featuring a wealth of examples and illustrations, this book tackles state-of-the- art issues in extracting the maximum electrical power from photovoltaic arrays under any weather condition. A valuable reference, it offers practical guidance for researchers and industry professionals who want to implement MPPT in photovoltaic systems.
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title	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems
title_auth	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems
title_exact_search	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems
title_full	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems Nicola Femia ...
title_fullStr	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems Nicola Femia ...
title_full_unstemmed	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems Nicola Femia ...
title_short	Power electronics and control techniques for maximum energy harvesting in photovoltaic systems
title_sort	power electronics and control techniques for maximum energy harvesting in photovoltaic systems
topic	Photovoltaic power systems Automatic control Power electronics SCIENCE / Energy bisacsh TECHNOLOGY & ENGINEERING / Electronics / General bisacsh TECHNOLOGY & ENGINEERING / Power Resources / Electrical bisacsh Sonnenenergie (DE-588)4055572-0 gnd Sonnenkraftwerk (DE-588)4055583-5 gnd Fotovoltaikanlage (DE-588)7614403-3 gnd Regelung (DE-588)4048971-1 gnd Solartechnik (DE-588)4024299-7 gnd Leistungselektronik (DE-588)4035235-3 gnd
topic_facet	Photovoltaic power systems Automatic control Power electronics SCIENCE / Energy TECHNOLOGY & ENGINEERING / Electronics / General TECHNOLOGY & ENGINEERING / Power Resources / Electrical Sonnenenergie Sonnenkraftwerk Fotovoltaikanlage Regelung Solartechnik Leistungselektronik
url	http://jacketsearch.tandf.co.uk/common/jackets/covers/websmall/978146650/9781466506909.jpg http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026128543&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026128543&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT femianicola powerelectronicsandcontroltechniquesformaximumenergyharvestinginphotovoltaicsystems

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