Renewable energy engineering:
Gespeichert in:
| Beteiligte Personen: | , |
|---|---|
| Format: | Buch |
| Sprache: | Englisch |
| Veröffentlicht: |
Cambridge
Cambridge University Press
2017
|
| Schlagwörter: | |
| Links: | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029730600&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| Umfang: | XX, 440 Seiten Illustrationen, Diagramme |
| ISBN: | 9781107680227 9781107028487 |
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Datensatz im Suchindex
| _version_ | 1819280730895679488 |
|---|---|
| adam_text | Renewable Energy
Engineering
NICK JENKINS
Cardiff University
JANAKA EKANAYAKE
University of Peradeniya
|1| Cambridge
UNIVERSITY PRESS
CONTENTS
Acknowledgement of Sources page xiv
Preface xix
1 Energy in the Modern World 1
Introduction 1
1 1 Energy Use in the Modem World 2
Example 1 1 -Increase of Energy Use 4
111 Exponential Growth 5
Example 1 2-ExponentialGrowth 6
1 2 Limiting Energy Use 7
121 Energy Efficiency 7
122 Economic Appraisal of Energy Efficiency Measures 9
Example 13- Economic Appraisal of an Energy Efficiency Measure 10
123 Energy Conservation 11
124 Management of Energy Demand Only Through Price 11
125 Smart Meters 12
126 Demand Side Response and the Variable Value of Electricity 12
1 3 The Need for Renewable Energy 13
131 Reserves of Fossil Fuels 13
132 Environmental Impact of Burning Fossil Fuels 15
133 Low Carbon Electricity Generation 18
Example 14- Achieving C02 Targets 19
Summary 20
Problems 22
Further Reading 23
2 Wind Energy 25
Introduction 25
2 1 Wind Turbines 26
211 History 26
212 Advantages and Disadvantages of Wind Energy 26
2 2 Operation of a Wind Turbine 28
221 Power Curve of a Wind Turbine 30
2 3 Energy Output of a Wind Turbine 31
2 4 Linear Momentum orActuator Disk Theory of a Wind Turbine 33
241 The Betz Limit 35
VI
Contents
242 Thrust Coefficient 36
243 Limitations of the Momentum Theory 37
244 Torque Coefficient 37
245 CpJX Curve of a Rotor 38
2 5 Fixed Speed Wind Turbines 3 8
251 The Generator of a Fixed Speed Wind Turbine 40
Example 21- Wind Turbine Operation 40
2 6 Control of Power Above Rated Wind Speed 41
261 Pitch and Stall Regulation 44
2 7 Variable Speed Wind Turbines 46
271 Full Power Converter Variable Speed Generators 47
272 Variable Speed Wind Turbine Control 48
273 Doubly Fed Induction Generators 49
2 8 Wind Structure and Statistics 49
The Method of Bins 52
281 Weibull and Raleigh Statistics 53
282 Variations of Wind Speed with Height 54
Example 22- Use of Weibull Parameters 56
283 Turbulence 57
284 Extreme Wind Speeds 58
2 9 Wind Farm Development 58
291 Wind Farm Power Output 60
292 Detailed Site Investigations and the Environmental Statement 62
293 Wind Turbine Noise 62
Example 2 3- Estimation of Sound Pressure Level at a Dwelling 64
Example 24- Estimation of Sound Power Level of a Turbine 65
Summary 66
Problems 68
F urther Reading 71
3 Hydro Power 72
Introduction 72
3 1 HydroPower 73
311 History 73
312 Advantages and Disadvantages of Hydro Power 75
3 2 Operation of a Hydro Scheme 75
Example 31- Operation of a Hydro Power Scheme 77
3 3 Power Output of a Hydro Scheme 78
331 Annual Capacity Factor 82
3 4 Types of Hydro Power Scheme 82
3 5 Hydro Power Turbines 84
351 Impulse Turbines 85
352 Analysis of a Pelton Turbine 86
Contents vii
Example 32- Operation of an Impulse Turbine 89
353 Reaction Turbines 93
354 Analysis of a Francis Turbine 95
Example 33- Operation of a Francis Turbine 97
355 The Draft Tube and Cavitation 98
356 Bulb and Inclined Shaft Turbines 98
3 6 Specific Speed of a Hydro Turbine 99
Example 34- Use of Specific Speed 100
3 7 Operation of a Hydro Turbine at Reduced Flows and Variable Speed 101
3 8 Net or Effective Head 104
Example 35- Determination of Penstock Diameter 106
3 9 Transient Conditions 107
Example 36- Load Rejection of a Turbine Generator 108
3 10 Development of Small Hydro Schemes 109
3 10 1 Environmental Impact Assessment 112
3 10 2 Generators for Small Hydro Schemes 112
3 10 3 Governors for Stand-Alone Schemes 113
3 10 4 Archimedes Screw Generators 113
Summary 115
Problems 117
Further Reading 119
4 The Solar Energy Resource 120
Introduction 120
4 1 The Solar Resource 121
4 2 Examples of the Solar Resource 122
4 3 Sun-Earth Geometry 124
Example 4 1 -Altitude of the Sun at Solar Noon 128
Example 42- Location of the Sun 129
4 4 Orientation of Solar Panels 130
4 5 Solar Spectrum and Air Mass 131
Example 43- Air Mass at Solar Noon 133
4 6 Wave-Particle Duality of Light 133
Example 44- Wavelength of Light to Operate a Silicon Solar Cell 134
Summary 134
Problems 136
Further Reading 137
5 Photovoltaic Systems 138
Introduction 138
5 1 Photovoltaic Energy Conversion 139
511 History 139
512 Advantages and Disadvantages of Photovoltaic Energy Conversion 139
Contents
viii
5 2 Standard Test Conditions 141
Example 51- Estimate of the Performance of a Photovoltaic System 142
5 3 Photovoltaic Technology 143
5 4 The Silicon Solar Cell 143
541 The Bond Model of the Silicon Solar Cell 144
» 542 The Band Model of the Silicon Solar Cell 146
543 Thep-nJunction 146
Example 52- Forward Voltage Drop Across a Silicon Diode 148
5 5 Operation of a Solar Cell 148
5 6 Equivalent Circuit of a Solar Cell 149
5 7 Performance of the Solar Cell with Varying Irradiance and Cell Temperature 151
Example 53- Performance of a Solar Cell at Increased Cell Temperature 153
5 8 The Solar Cell as a Current Source 153
5 9 Photovoltaic Modules 154
Example 54- Performance of a Photovoltaic Module 155
591 Module Bypass Diodes 156
592 Blocking Diodes 156
5 10 Performance of Photovoltaic Modules and Systems 15 6
5 10 1 Estimation of Cell Temperature 156
Example 55- Reduction of Output with Cell Temperature 157
5 10 2 Performance Assessment of Photovoltaic Systems 157
Example 56- Performance of Photovoltaic Systems 158
5 11 Stand-Alone, Off-Grid, Photovoltaic Systems 158
5 11 1 Charge Regulator and Low Voltage Disconnect 159
5 11 2 Operating Characteristics of a Stand-Alone System 160
Example 57- Estimate of the Charge into the Battery of a Stand-Alone System 161
5 11 3 Self-Regulating Modules 161
5 11 4 Battery Energy Storage 162
5 12 Example of a Stand-Alone Off-Grid System 164
5 13 Grid-Connected Photovoltaic Systems 166
5 13 1 Grid Conditions for Operation 166
5 13 2 Maximum Power Point Tracking 167
5 13 3 Grid-ConnectedPVInverters 168
5 14 The Technologies of Photovoltaic Cells 170
Summary 175
Problems 178
F urther Reading 181
6 Solar Thermal System 182
Introduction 182
6 1 Solar Thermal Energy 183
611 Advantages and Disadvantages of Solar Thermal Energy Systems 184
6 2 Passive Solar Thermal Heating of Buildings 185
Contents
ix
621 Solar Gain from Glazing 188
Example 61- Heat Gain Through a Window 188
6 3 Circuit Representation of Heat Transfer in Low Temperature Solar
Thermal Systems 189
6 4 Heat Loss of Buildings due to Ventilation 191
Example 62- Estimation of the Heat Loss from a Small Building 192
6 5 Degree Days 193
651 Monitoring the Thermal Performance of Buildings Using Degree Days 194
Example 6 3(a) - Use of Degree Days to Monitor the Performance of a Building 197
Example 6 3(b) - Use of Degree Days to Predict Building Energy Consumption 198
6 6 Radiation and the Behaviour of Glass 199
6 7 Solar Water Heating 201
6 8 Performance of a Flat Plate Solar Collector 205
Example 64- Performance of a Flat Plate Solar Collector 208
681 Selective Absorber Surface 209
6 9 High Temperature Concentrating Solar Thermal Systems 210
Summary 217
Problems 221
Further Reading 224
7 Marine Energy 225
Introduction 225
7 1 Tidal Range Generation 227
711 The Tidal Energy Resource 229
712 Description of the Tides Using Harmonic Constituents 232
Example 7 1 -Type of a Tide 235
713 Tidal Range Generation 235
Example 72- Power Available in an Estuary 236
714 Ebb Generation 236
715 Turbine Generators for a Tidal Range Generation Scheme 238
716 Environmental Impact 240
717 Tidal Lagoons 241
7 2 Tidal Stream Generation 242
721 The Tidal Stream Resource 242
Example 73- Variation of Tidal Stream with Depth 245
722 Development of a Tidal Stream Project 246
723 Tidal Stream Turbines 246
724 Comparison of a Tidal Stream Turbine with a Wind Turbine Using
Linear Momentum Theory 250
Example 74- Comparison of Tidal Stream and Wind Turbines 251
Example 75- Performance of Tidal Stream Turbine 253
7 3 Wave Power Generation 254
731 Water Waves 256
X
Contents
Example 76- Waves at Intermediate Depths 259
Example 77- Power Monochromatic in Deep-Water Waves 262
732 The Wave Energy Resource 263
Example 78- Wavelength of Deep-Water Waves 264
733 Devices for Wave Power Generation 267
Summary 272
Problems 274
Further Reading 276
8 Bioenergy 277
Introduction 277
8 1 Bioenergy: Energy from Biomass 278
8 2 Photosynthesis 280
Example 81- Land Required for Bioenergy 282
8 3 Bioenergy Processes 282
8 4 Combustion of Solid Biomass 283
841 Properties of Solid Biomass 287
Example 82- Moisture Content of Biomass 288
842 Combustion 291
Example 83- Stoichiometric Combustion 292
843 Burning of Biomass 293
Example 84- Combustion of Biomass 294
844 Analysis of the Combustion of Solid Biomass 295
Example 85- Combustion of Biomass Analysed Using Ultimate Analysis 296
845 Combustion of Biomass in Large Generating Stations 298
8 5 Gasification of Biomass 299
851 Gasification 300
852 Gasifiers 302
8 6 Anaerobic Digestion 306
861 Landfill Gas 308
8 7 Conversion of Biomass into Fuel for Road Transport 309
871 Fermentation of B iomass into Ethanol 3 09
872 Extraction of Natural Vegetable Oil and Biodiesel 310
873 Social and Environmental Impacts of Biomass Vehicle Fuel 311
Summary 312
Problems 313
Further Reading 315
9 Development and Appraisal of Renewable Energy Projects 317
Introduction 317
9 1 Project Development 317
911 Phases of Project Development 318
912 Assessment of the Renewable Energy Resource 320
Contents
XI
913 Aspects of Project Development 322
9 2 Economic Appraisal of Renewable Energy Schemes 324
921 Simple DCF appraisal 324
Example 9 1 -Economic Appraisal Using Discounted Cash Flow 326
9 3 Environmental Impact Assessment of Renewable Energy Projects 328
931 Uses of an Environmental Statement 329
932 Contents of a Typical Environmental Statement 329
Summary 330
Problems 331
Further Reading 332
10 Electrical Energy Systems 333
Introduction 333
10 1 Energy Systems 334
10 2 Ac Power Systems 336
10 3 Real and Reactive Power 338
10 4 Voltage of the Power System 340
10 4 1 Transformer Tap Changing 341
10 4 2 Voltage Drop and Power Flows 341
10 4 3 Changes of Local Voltage with P and Q Flows 342
10 4 4 Voltage Control by Reactive Power 344
Example 10 1 - Voltage Rise at the Connection of a Renewable Generator 345
10 5 Frequency 347
Example 10 2 - Effect of PV Generation on System Inertia 350
10 6 Operating the Power System 3 51
10 6 1 Generation Scheduling 351
Example 10 3 - Cost Function 352
Example 10 4 - Generator Scheduling 354
Example 10 5 - Generator Scheduling with C02 Cost 356
10 6 2 Mismatches Between the Generation and Load 357
10 6 3 Reserve Generation Requirements 358
Example 10 6 - Reserve Requirement 359
10 6 4 Stability 359
10 7 Demand Side Participation 360
10 8 Energy Storage 362
10 8 1 Battery Energy Storage 363
10 8 2 Fuel Cells 364
10 9 Renewable Energy Connections * 365
10 9 1 Onshore Wind Farm Connections 365
10 9 2 Offshore Wind Farm Connections 365
10 9 3 PVConnection 367
Summary 369
Problems 371
Further Reading 374
xii Contents
Tutorial I Electrical Engineering 375
1 1 Direct Current (dc) 375
1 2 Alternating Current (ac) 376
Example 11- Instantaneous Value of a Sinusoidal Signal 377
121 Resistors 378
122 Inductors 379
123 Capacitors 381
124 Phasor Representation of Ac Quantities 381
125 Inductive Loads 383
126 Capacitive Loads 384
Example 1 2 -R, Land Ccircuit 385
1 3 Power System Components 386
131 Generators 386
132 Transformers 389
Example 13- Ideal Transformer 390
133 Connection of Generator and Transformer Windings 390
134 Transmission Lines 392
135 Three-Phase Loads 393
1 4 Power in Three-Phase System 394
Example 14- Three-Phase Loads 395
1 5 Power Electronics 395
Summary 396
Problems 399
Further Reading 400
Tutorial II Heat Transfer 401
II 1 Heat Transfer 401
11 2 Conduction 402
Example 11 1 - Thermal Loss by Conduction 403
Example 11 2 - Heat Lost Through an Insulated Surface 404
11 3 Convection 405
Example 11 3 - Thermal Resistance of Convection 406
11 4 Radiation 408
Example 11 4 - Temperature of a Flat Metal Plate in Bright Sunlight 411
Example 11 5 - Heat Transfer Through Radiation and Convection 412
Example 11 6 - Thermal Resistance of Radiation 414
11 5 Heat Transfer Through Mass Flow of Fluid 415
Example 11 7 - Heat Transfer in an Unglazed Flat Plate Solar Water Heater 415
II 6 Example of One-Dimensional Heat Transfer 416
Example 11 8-A Steam Pipe 417
Summary 418
Problems 420
Further Reading 421
Contents
xiii
Tutorial III Simple Behaviour of Fluids 422
III 1 Types of Flow 422
III 1 1 Steady Flow 422
III 1 2 Compressible and Incompressible Fluids 422
III 1 3 Laminar and Turbulent Flow 422
111 2 Viscosity and Ideal Flow 423
111 3 Mass Continuity Equation 424
Example 111 1 - Continuity of Mass Flow 424
111 4 Energy Balance: Bernoulli’s Equation 425
Example III 2 - Application of the Bernoulli Equation 426
Example 111 3-A Large Water Tank with Discharge 427
Example 111 4 - Turbine Operation 428
111 5 Angular Momentum 429
111 6 Flow Through Pipe Systems and the Moody Chart 430
Example III 5 - Laminar Flow in a Pipe 432
Summary 432
Problems 435
Further Reading 436
Index 437
|
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| discipline | Energietechnik |
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| id | DE-604.BV044327257 |
| illustrated | Illustrated |
| indexdate | 2024-12-20T17:59:59Z |
| institution | BVB |
| isbn | 9781107680227 9781107028487 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029730600 |
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| subject_GND | (DE-588)4014725-3 (DE-588)4068598-6 (DE-588)4059276-5 |
| title | Renewable energy engineering |
| title_auth | Renewable energy engineering |
| title_exact_search | Renewable energy engineering |
| title_full | Renewable energy engineering Nick Jenkins, Cardiff University, Janaka Ekanayake, University of Peradeniya |
| title_fullStr | Renewable energy engineering Nick Jenkins, Cardiff University, Janaka Ekanayake, University of Peradeniya |
| title_full_unstemmed | Renewable energy engineering Nick Jenkins, Cardiff University, Janaka Ekanayake, University of Peradeniya |
| title_short | Renewable energy engineering |
| title_sort | renewable energy engineering |
| topic | Energietechnik (DE-588)4014725-3 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Technologie (DE-588)4059276-5 gnd |
| topic_facet | Energietechnik Erneuerbare Energien Technologie |
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