Verfügbarkeit: Energy harvesting

Energy harvesting: solar, wind, and ocean energy conversion systems

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Bibliographische Detailangaben
Hauptverfasser:	Khaligh, Alireza (VerfasserIn), Onar, Omer C. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. [u.a.] CRC Press 2010
Schriftenreihe:	Energy, power electronics, and machines series
Schlagworte:	Renewable energy sources Solar energy Ocean energy resources Wind power Wind energy conversion systems Energy conversion Erneuerbare Energien
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 350 S. Ill., graph. Darst.
ISBN:	9781439815083

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Datensatz im Suchindex

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adam_text	Contents Preface .......................................................... xiii Authors ......................................................... xv 1. Solar Energy Harvesting ......................................... 1 1.1 Introduction ............................................... 1 1.1.1 Structures of Photovoltaic Cells/Modules/ Arrays ............. 1 1.1.2 Semiconductor Materials for PV Cells ...................... 3 1.1.3 Active and Passive Solar Energy Systems .................... 5 1.1.4 Components of a Solar Energy System ...................... 5 1.2 Í-V Characteristics of PV Systems ............................... 7 1.3 PV Models and Equivalent Circuits .............................. 9 1.3.1 Single-Diode and Dual-Diode Models ...................... 9 1.3.2 Single-Diode Model without Parallel Resistance ............... 10 1.3.3 Single-Diode Model without Resistances .................... 12 1.3.4 PV Model Performance under Nominal and Standard Conditions ........................................... 13 1.3.5 Effects of Irradiance and Temperature on PV Characteristics ...... 15 1.4 Sun Tracking Systems ........................................ 15 1.5 MPPT Techniques ........................................... 21 1.5.1 Incremental Conductance-Based MPPT Technique ............. 21 1.5.2 Perturb and Observe-Based MPPT ......................... 23 1.5.3 MPPT Controller-Based on Linearized I-V Characteristics ....... 24 1.5.4 Fractional Open-Circuit Voltage-Based MPPT ................. 26 1.5.5 Fractional Short-Circuit Current-Based MPPT ................ 27 1.5.6 Fuzzy Logic Control-Based MPPT ......................... 28 1.5.7 Neural Network-Based MPPT ............................ 30 1.5.8 Ripple Correlation Control-Based MPPT .................... 31 1.5.9 Current Sweep-Based MPPT ............................. 32 1.5.10 DC Link Capacitor Droop Control-Based MPPT ............... 33 1.6 Shading Effects on PV Cells ................................... 35 1.7 Power Electronic Interfaces for PV Systems ........................ 40 1.7.1 Power Electronic Interfaces for Grid-Connected PV Systems ...... 40 1.7.1.1 Topologies Based on Inverter Utilization ............... 41 1.7.1.2 Topologies Based on Module and Stage Configurations .... 42 1.7.2 Power Electronic Interfaces for Stand-Alone PV Systems ........ 61 1.7.2.1 PV/Battery Connection: Type 1 ..................... 61 vii viii Contents 1.7.2.2 PV/Battery Connection: Type 2..................... 63 1.7.2.3 PV/Battery Connection: Type 3..................... 64 1.7.2.4 PV/Battery Connection: Type 4..................... 65 1.7.2.5 PV/Battery Connection: Type 5 ..................... 65 1.8 Sizing the PV Panel and Battery Pack for Stand- Alone PV Applications ............................................ 66 1.8.1 Sun Hour ............................................ 67 1.8.2 Load Calculation ...................................... 67 1.8.3 Days of Autonomy ..................................... 67 1.8.4 Solar Radiation ....................................... 68 1.8.5 PV Array Sizing ....................................... 68 1.8.5.1 PV Module Selection ............................. 68 1.8.5.2 System Losses .................................. 68 1.8.5.3 Determination of the Number of Series-Connected PV Modules .................................... 68 1.8.5.4 Determination of the Number of Parallel-Connected PV Modules .................................... 69 1.8.5.5 Design Verification and a Sizing Example .............. 69 1.9 Modern Solar Energy Applications .............................. 72 1.9.1 Residential Applications ................................ 72 1.9.1.1 Boost Converter ................................. 74 1.9.1.2 MPPT Control of the PV Panel ...................... 77 1.9.1.3 Bidirectional Inverter/Converter .................... 78 1.9.1.4 Power Conditioner ............................... 79 1.9.2 Electric Vehicle Applications ............................. 81 1.9.2.1 Solar Miner Π ................................... 84 1.9.3 Naval Applications .................................... 86 1.9.3.1 Solar-Powered AUV .............................. 87 1.9.3.2 Solar-Powered Boat, Korona........................ 88 1.9.4 Space Applications ..................................... 89 1.9.4.1 Solar Power Satellite Energy System .................. 90 1.9.4.2 Pathfinder, the Solar Rechargeable Aircraft .............. 90 1.9.4.3 Solar-Powered Aircraft ............................ 91 1.9.4.4 Solar Airplane .................................. 91 1.9.4.5 Solar-Powered Unmanned Aerial Vehicle .............. 92 1.10 Summary ................................................. 94 References ................................................ 94 Wind Energy Harvesting ......................................... 101 2.1 Introduction ............................................... 101 2.2 Winds ................................................... 101 2.3 History of Wind Energy Harvesting ............................. 104 2.4 Fundamentals of Wind Energy Harvesting ........................ 105 2.4.1 Wind Turbine Siting .................................... 105 2.4.2 Wind Turbine Power ................................... 107 2.4.2.1 Betz Law ...................................... 107 2.4.2.2 Power Curve ................................... 109 2.4.2.3 Power Coefficient ................................ 110 Contents ix 2.5 Wind Turbine Systems....................................... 112 2.5.1 Basic Parts of Wind Turbines ............................. 112 2.5.1.1 The Tower..................................... 112 2.5.1.2 Yaw Mechanism................................. 113 2.5.1.3 The Nacelle .................................... 113 2.5.1.4 The Turbine .................................... 113 2.6 Wind Turbines ............................................. 114 2.6.1 Wind Turbines Based on Axis Position ...................... 114 2.6.2 Wind Turbines Based on Power Capacity .................... 114 2.7 Different Electrical Machines in Wind Turbines ..................... 116 2.7.1 BLDC Machines ....................................... 116 2.7.2 Permanent Magnet Synchronous Machines .................. 123 2.7.3 Induction Machines .................................... 130 2.7.3.1 Conventional Control Scheme ...................... 134 2.7.3.2 Voltage and Frequency Control with Load Regulation ..... 134 2.7.3.3 Improved Voltage and Frequency Control with a VSI ..... 135 2.7.3.4 Advanced Voltage and Frequency Control Using VSI ..... 136 2.7.3.5 Back-to-Back Connected PWM VSI ................... 136 2.7.3.6 DFIG ......................................... 137 2.7.3.7 Voltage and Frequency Control Using Energy Storage Devices ................................. 143 2.8 Synchronous Generators ...................................... 151 2.9 Wind Harvesting Research and Development ...................... 156 2.9.1 Developments in Control Systems ......................... 156 2.9.2 Developments in Machine Design ......................... 158 2.9.3 Developments in Distribution and Grid-Connected Topologies .... 158 2.10 Summary ................................................. 159 References ................................................ 159 3. Tidal Energy Harvesting ......................................... 167 3.1 Introduction ............................................... 167 3.1.1 History of Tidal Energy Harvesting ........................ 169 3.1.2 Physical Principles of Tidal Energy ......................... 170 3.2 Categories of Tidal Power and Corresponding Generation Technology . . . 173 3.2.1 Potential Energy ...................................... 173 3.2.2 Tidal Barrages Approach ................................ 174 3.2.2.1 Ebb Generation ................................. 174 3.2.2.2 Flood Generation ................................ 174 3.2.2.3 Two-Way Generation ............................. 174 3.2.3 Tidal Lagoons Concept ................................. 176 3.2.4 Tidal Turbines Used in Barrages ........................... 178 3.2.4.1 Bulb Turbine ................................... 178 3.2.4.2 Rim Turbine .................................... 179 3.2.4.3 Tubular Turbine ................................. 179 3.3 Turbine and Generator s Control ............................... 180 3.3.1 Modeling of Hydraulic Turbine Conduit Dynamics ............ 181 3.3.2 Hydro Turbine Controls ................................. 183 3.3.3 Kinetic Energy ........................................ 188 Contents 3.3.3.1 Energy Calculation for Tidal Current Energy Harvesting Technique ............................ 189 3.3.3.2 Tidal Turbines Used in Tidal Current Approach ......... 192 3.4 Tidal Energy Conversion Systems ............................... 199 3.4.1 Generators ........................................... 199 3.4.1.1 Synchronous Generator ........................... 199 3.4.1.2 Asynchronous Generator .......................... 202 3.4.2 Gearbox ............................................. 205 3.4.3 Optimal Running Principle of Water Turbine ................. 205 3.4.4 Maximum Power Point Tracking .......................... 206 3.4.4.1 MPPT Method Based on Look-Up Table ............... 207 3.4.4.2 MPPT Method Based on Current Speed Calculation ...... 208 3.4.5 P&O-Based MPPT Method ............................... 208 3.5 Grid Connection Interfaces for Tidal Energy Harvesting Applications .... 211 3.5.1 Grid Connection Interfaces for Tidal Turbine Applications ....... 211 3.5.1.1 Grid-Connected Systems .......................... 212 3.5.2 Grid Connection and Synchronization for Tidal Energy Harvesting with Basin Constructions ....................... 216 3.6 Potential Resources .......................................... 217 3.7 Environmental Impacts ....................................... 218 3.7.1 Sediment ............................................ 218 3.7.2 Fish ................................................ 219 3.7.3 Salinity ............................................. 219 3.8 Summary ................................................. 219 References ................................................ 219 4. Ocean Wave Energy Harvesting .................................... 223 4.1 Introduction to Ocean Wave Energy Harvesting .................... 223 4.2 The Power of Ocean Waves .................................... 225 4.3 Wave Energy Harvesting Technologies ........................... 226 4.3.1 Offshore Energy Harvesting Topologies ..................... 227 4.3.1.1 Dynamics of Fixed Bodies in Water ................... 227 4.3.1.2 Dynamics of Floating Bodies in Water ................. 228 4.3.1.3 Air-Driven Turbines .............................. 229 4.3.1.4 Fixed Stator and Directly Driven PM Linear Generator-Based Buoy Applications .................. 230 4.3.1.5 Salter Cam Method .............................. 231 4.3.2 Nearshore Energy Harvesting Topologies .................... 233 4.3.2.1 Nearshore Wave Energy Harvesting by the Channel/Reservoir/Turbine Method ................. 233 4.3.2.2 Air-Driven Turbines Based on the Nearshore Wave Energy Harvesting Method ........................ 233 4.3.3 Wave Power Absorbers ................................. 234 4.3.4 Wave Power Turbine Types .............................. 236 4.3.4.1 The Wells Air Turbines .......................... 237 4.3.4.2 Self-Pitch-Controlled Blades Turbine for WEC .......... 239 4.3.4.3 Kaplan Turbines for WEC .......................... 241 4.3.4.4 Other Types of Turbines Used for WEC ............... 243 Contents xi 4.3.5 Wave Power Generators................................. 249 4.3.5.1 A Wave-Activated Linear Generator Model ............. 249 4.3.5.2 Linear, Synchronous, Longitudinal-Flux PM Generators . . . 255 4.3.5.3 A Three-Phase Synchronous Generator for Ocean Wave Applications ............................... 260 4.3.5.4 Radial Flux PM Synchronous Generator for WEC ........ 266 4.3.5.5 Induction Machines for Ocean WEC .................. 272 4.3.5.6 Switched Reluctance Machines for Ocean WEC .......... 274 4.3.5.7 Ocean Energy Conversion Using Piezoelectric/Electrostictive Materials ................ 275 4.3.6 Grid Connection Topologies for Different Generators Used in Wave Energy Harvesting Applications ...................... 282 4.3.6.1 Grid Connection Interface for Linear and Synchronous Generator Applications ........................... 282 4.3.6.2 Grid Connection Interface for Induction Generator Applications ................................... 283 4.3.6.3 Grid Connection Interface for SRG Applications ......... 286 4.3.6.4 Grid Connection Interface for Piezoelectric/Electrostrictive Power Generators ......... 289 4.4 Wave Energy Applications .................................... 289 4.4.1 Oscillating Water Column ............................... 290 4.4.2 Pelamis ............................................. 291 4.4.3 Wave Dragon ......................................... 294 4.4.4 AWS ............................................... 294 4.4.5 Wave Star Energy ...................................... 296 4.4.6 Magnetohydrodynamics Wave Energy Converter .............. 298 4.5 Wave Energy in Future ....................................... 298 4.6 Summary ................................................. 299 References ................................................ 299 5. Ocean Thermal Energy Harvesting ................................. 305 5.1 History ................................................... 306 5.2 Classification of OTECs ...................................... 308 5.2.1 Closed-Cycle OTEC Systems ............................. 308 5.2.1.1 Structure and Principles of Closed-Cycle Systems ........ 308 5.2.1.2 Thermodynamic Principles of Closed-Cycle Systems ..... 309 5.3 Technical Obstacles of Closed-Cycle OTEC Systems ................. 312 5.3.1 Working Fluids and Its Potential Leakage .................... 312 5.3.1.1 Degradation of Heat Exchanger Performance by Microbial Fouling ................................ 314 5.3.2 Thermal Energy Conversion for OTEC Systems ............... 314 5.3.3 Open-Cycle OTEC Systems .............................. 315 5.3.3.1 Structure and Principles of Open-Cycle Systems ......... 315 5.3.3.2 Technical Difficulties of Open-Cycle OTEC Systems ...... 316 5.3.4 Hybrid Cycle OTEC Systems ............................. 316 5.3.4.1 Structure and Principles of Hybrid OTEC Systems ....... 316 5.4 Components of an OTEC System ............................... 317 5.4.1 Heat Exchanger ....................................... 318 5.4.2 Evaporator .......................................... 318 xii Contents 5.4.3 Condenser ........................................... 322 5.4.4 Vacuum Flash Evaporator............................... 325 5.5 Control of an OTEC Power Plant ................................ 326 5.6 Control of a Steam Turbine .................................... 329 5.7 Potential Resources .......................................... 333 5.8 Multipurpose Utilization of OTEC Systems ........................ 337 5.8.1 Desalination......................................... 337 5.8.2 Aquaculture .......................................... 337 5.8.3 Air-Conditioning ...................................... 338 5.8.4 Mineral Extraction ..................................... 338 5.9 Impact on Environment ...................................... 338 5.10 Summary ................................................. 339 References ................................................ 339 Index ........................................................... 343
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spelling	Khaligh, Alireza Verfasser aut Energy harvesting solar, wind, and ocean energy conversion systems Alireza Khaligh ; Omer C. Onar Boca Raton, Fla. [u.a.] CRC Press 2010 XV, 350 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Energy, power electronics, and machines series Renewable energy sources Solar energy Ocean energy resources Wind power Wind energy conversion systems Energy conversion Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 s DE-604 Onar, Omer C. Verfasser aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018965013&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Khaligh, Alireza Onar, Omer C. Energy harvesting solar, wind, and ocean energy conversion systems Renewable energy sources Solar energy Ocean energy resources Wind power Wind energy conversion systems Energy conversion Erneuerbare Energien (DE-588)4068598-6 gnd
subject_GND	(DE-588)4068598-6
title	Energy harvesting solar, wind, and ocean energy conversion systems
title_auth	Energy harvesting solar, wind, and ocean energy conversion systems
title_exact_search	Energy harvesting solar, wind, and ocean energy conversion systems
title_full	Energy harvesting solar, wind, and ocean energy conversion systems Alireza Khaligh ; Omer C. Onar
title_fullStr	Energy harvesting solar, wind, and ocean energy conversion systems Alireza Khaligh ; Omer C. Onar
title_full_unstemmed	Energy harvesting solar, wind, and ocean energy conversion systems Alireza Khaligh ; Omer C. Onar
title_short	Energy harvesting
title_sort	energy harvesting solar wind and ocean energy conversion systems
title_sub	solar, wind, and ocean energy conversion systems
topic	Renewable energy sources Solar energy Ocean energy resources Wind power Wind energy conversion systems Energy conversion Erneuerbare Energien (DE-588)4068598-6 gnd
topic_facet	Renewable energy sources Solar energy Ocean energy resources Wind power Wind energy conversion systems Energy conversion Erneuerbare Energien
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018965013&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT khalighalireza energyharvestingsolarwindandoceanenergyconversionsystems AT onaromerc energyharvestingsolarwindandoceanenergyconversionsystems

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