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Author Landberg, Lars.
Title Meteorology for wind energy : an introduction / Lars Landberg.
Publication Info Chichester, West Sussex : Wiley, 2016.



Descript xviii, 204 pages : illustrations (black and white)
Contents Dedication iii Foreword ix Preface xi Acknowledgements xiii List of Abbreviations xv 1 Introduction 1 2 Meteorological Basics 5 2.1 Why does the wind blow? 5 2.2 The vertical structure of the atmosphere 9 2.3 Atmospheric variables and forces 13 2.3.1 Atmospheric Variables 13 2.3.2 Atmospheric Forces 13 2.3.3 Force Balances and the Geostrophic Wind 16 2.4 Length and time scales of atmospheric flow 20 2.5 Larger-scale systems (aka Weather) 22 2.5.1 Mid-latitudinal cyclone (low-pressure system) 22 2.5.2 Anticyclones (high-pressure systems) 23 2.5.3 Hurricanes 27 2.5.4 Monsoons 27 2.5.5 Climatological circulations 28 2.6 Summary 33 2.7 Exercises 34 3 Measurements 37 3.1 Philosophy: what does it mean to measure? 37 3.2 What do we measure? 40 3.3 Measurement theory 42 3.3.1 Are we good to go? 48 3.4 Practice 49 3.4.1 Measuring 49 3.4.2 Cup anemometer 52 3.4.3 Wind Vane 54 3.4.4 Sonic Anemometer 55 3.4.5 Hot wire 57 3.4.6 Pitot tube 57 3.4.7 Thermometer 58 3.4.8 Barometer 59 3.4.9 Remote sensing 60 3.4.10 Ceilometer 67 3.4.11 Weather balloon or the Radiosonde 67 3.4.12 Satellite-borne instruments 68 3.5 Summary 71 3.6 Exercises 72 4 The Wind Profile 73 4.1 A hand-waving way of deriving the simple log profile 73 4.2 Working with the log profile 75 4.3 The power law 77 4.4 Averaging times and other dependencies 79 4.5 Two famous profiles 80 4.6 Zero-plane displacement 82 4.7 Internal Boundary Layers (IBL) 83 4.8 Stability 86 4.9 Monin-Obukhov Theory 90 4.10 Deviations with height 94 4.11 Connection with geostrophic drag law 95 4.12 Effect of orography, obstacles and thermal flows on the profile 96 4.13 Direction profile 96 4.14 Summary 97 4.15 Excercises 97 5 Local Flow 99 5.1 Local effects 100 5.2 Orographic forcing 100 5.2.1 Analytical models 101 5.2.2 Attached flow: Flow in simple terrain 104 5.2.3 Detached flow: Flow in complex terrain 107 5.2.4 More advanced models for flow in complex terrain 109 5.3 Roughness 111 5.4 Obstacles 113 5.5 Thermally-driven flows 116 5.5.1 Sea/land breezes 116 5.5.2 Ana-/katabatic winds 118 5.6 Effect of stability 120 5.7 Summary 120 5.8 Exercises 120 6 Turbulence 123 6.1 What generates turbulence? 125 6.2 Reynolds Decomposition and Averaging 125 6.3 Spectra 126 6.3.1 Understanding Fourier analysis and spectra, a poor man/woman's approach 127 6.3.2 Standard types of spectra 131 6.4 Measuring Turbulence 135 6.5 Turbulent Loads 135 6.6 Extreme winds 137 6.7 Summary 137 6.8 Exercises 138 7 Wakes 139 7.1 Turbine-to-turbine wakes 140 7.1.1 The NO Jensen model 142 7.1.2 The Ainslie model 145 7.1.3 Similarity theory 147 7.1.4 Effect on power 149 7.1.5 Wake models, summary 152 7.2 Several wind turbines, i.e. a wind farm 153 7.3 Advanced topics 153 7.3.1 Measuring the wakes 153 7.3.2 Onshore/offshore wakes 155 7.3.3 Very large wind farms, state of the art 156 7.3.4 Wind farm to wind farm interaction 156 7.4 Summary 156 7.5 Exercises 157 8 Modelling 159 8.1 Modelling and what it means 159 8.2 Input 159 8.3 Modelling 160 8.3.1 NWP (Numerical Weather Prediction) models 163 8.3.2 Sub-grid processes 166 8.4 Output 167 8.5 Errors 168 8.6 So, what is a good model? 169 8.7 Chaos 170 8.7.1 Ensemble prediction 171 8.8 Summary 171 8.9 Exercises 173 9 Conclusion 175 References 177 A Cheat sheet 181 B Answers to Exercises 185 C Sample wind speed and direction data 203 Index 205
Note 200 annual accesses. UkHlHU
ISBN 9781118913468 (e-book)
9781118913444 (hbk.) :
9781118913468 (ebook)
Click on the terms below to find similar items in the catalogue
Author Landberg, Lars.
Subject Wind forecasting.
Wind power -- Climatic factors.
Descript xviii, 204 pages : illustrations (black and white)
Contents Dedication iii Foreword ix Preface xi Acknowledgements xiii List of Abbreviations xv 1 Introduction 1 2 Meteorological Basics 5 2.1 Why does the wind blow? 5 2.2 The vertical structure of the atmosphere 9 2.3 Atmospheric variables and forces 13 2.3.1 Atmospheric Variables 13 2.3.2 Atmospheric Forces 13 2.3.3 Force Balances and the Geostrophic Wind 16 2.4 Length and time scales of atmospheric flow 20 2.5 Larger-scale systems (aka Weather) 22 2.5.1 Mid-latitudinal cyclone (low-pressure system) 22 2.5.2 Anticyclones (high-pressure systems) 23 2.5.3 Hurricanes 27 2.5.4 Monsoons 27 2.5.5 Climatological circulations 28 2.6 Summary 33 2.7 Exercises 34 3 Measurements 37 3.1 Philosophy: what does it mean to measure? 37 3.2 What do we measure? 40 3.3 Measurement theory 42 3.3.1 Are we good to go? 48 3.4 Practice 49 3.4.1 Measuring 49 3.4.2 Cup anemometer 52 3.4.3 Wind Vane 54 3.4.4 Sonic Anemometer 55 3.4.5 Hot wire 57 3.4.6 Pitot tube 57 3.4.7 Thermometer 58 3.4.8 Barometer 59 3.4.9 Remote sensing 60 3.4.10 Ceilometer 67 3.4.11 Weather balloon or the Radiosonde 67 3.4.12 Satellite-borne instruments 68 3.5 Summary 71 3.6 Exercises 72 4 The Wind Profile 73 4.1 A hand-waving way of deriving the simple log profile 73 4.2 Working with the log profile 75 4.3 The power law 77 4.4 Averaging times and other dependencies 79 4.5 Two famous profiles 80 4.6 Zero-plane displacement 82 4.7 Internal Boundary Layers (IBL) 83 4.8 Stability 86 4.9 Monin-Obukhov Theory 90 4.10 Deviations with height 94 4.11 Connection with geostrophic drag law 95 4.12 Effect of orography, obstacles and thermal flows on the profile 96 4.13 Direction profile 96 4.14 Summary 97 4.15 Excercises 97 5 Local Flow 99 5.1 Local effects 100 5.2 Orographic forcing 100 5.2.1 Analytical models 101 5.2.2 Attached flow: Flow in simple terrain 104 5.2.3 Detached flow: Flow in complex terrain 107 5.2.4 More advanced models for flow in complex terrain 109 5.3 Roughness 111 5.4 Obstacles 113 5.5 Thermally-driven flows 116 5.5.1 Sea/land breezes 116 5.5.2 Ana-/katabatic winds 118 5.6 Effect of stability 120 5.7 Summary 120 5.8 Exercises 120 6 Turbulence 123 6.1 What generates turbulence? 125 6.2 Reynolds Decomposition and Averaging 125 6.3 Spectra 126 6.3.1 Understanding Fourier analysis and spectra, a poor man/woman's approach 127 6.3.2 Standard types of spectra 131 6.4 Measuring Turbulence 135 6.5 Turbulent Loads 135 6.6 Extreme winds 137 6.7 Summary 137 6.8 Exercises 138 7 Wakes 139 7.1 Turbine-to-turbine wakes 140 7.1.1 The NO Jensen model 142 7.1.2 The Ainslie model 145 7.1.3 Similarity theory 147 7.1.4 Effect on power 149 7.1.5 Wake models, summary 152 7.2 Several wind turbines, i.e. a wind farm 153 7.3 Advanced topics 153 7.3.1 Measuring the wakes 153 7.3.2 Onshore/offshore wakes 155 7.3.3 Very large wind farms, state of the art 156 7.3.4 Wind farm to wind farm interaction 156 7.4 Summary 156 7.5 Exercises 157 8 Modelling 159 8.1 Modelling and what it means 159 8.2 Input 159 8.3 Modelling 160 8.3.1 NWP (Numerical Weather Prediction) models 163 8.3.2 Sub-grid processes 166 8.4 Output 167 8.5 Errors 168 8.6 So, what is a good model? 169 8.7 Chaos 170 8.7.1 Ensemble prediction 171 8.8 Summary 171 8.9 Exercises 173 9 Conclusion 175 References 177 A Cheat sheet 181 B Answers to Exercises 185 C Sample wind speed and direction data 203 Index 205
Note 200 annual accesses. UkHlHU
ISBN 9781118913468 (e-book)
9781118913444 (hbk.) :
9781118913468 (ebook)
Author Landberg, Lars.
Subject Wind forecasting.
Wind power -- Climatic factors.

Subject Wind forecasting.
Wind power -- Climatic factors.
Descript xviii, 204 pages : illustrations (black and white)
Contents Dedication iii Foreword ix Preface xi Acknowledgements xiii List of Abbreviations xv 1 Introduction 1 2 Meteorological Basics 5 2.1 Why does the wind blow? 5 2.2 The vertical structure of the atmosphere 9 2.3 Atmospheric variables and forces 13 2.3.1 Atmospheric Variables 13 2.3.2 Atmospheric Forces 13 2.3.3 Force Balances and the Geostrophic Wind 16 2.4 Length and time scales of atmospheric flow 20 2.5 Larger-scale systems (aka Weather) 22 2.5.1 Mid-latitudinal cyclone (low-pressure system) 22 2.5.2 Anticyclones (high-pressure systems) 23 2.5.3 Hurricanes 27 2.5.4 Monsoons 27 2.5.5 Climatological circulations 28 2.6 Summary 33 2.7 Exercises 34 3 Measurements 37 3.1 Philosophy: what does it mean to measure? 37 3.2 What do we measure? 40 3.3 Measurement theory 42 3.3.1 Are we good to go? 48 3.4 Practice 49 3.4.1 Measuring 49 3.4.2 Cup anemometer 52 3.4.3 Wind Vane 54 3.4.4 Sonic Anemometer 55 3.4.5 Hot wire 57 3.4.6 Pitot tube 57 3.4.7 Thermometer 58 3.4.8 Barometer 59 3.4.9 Remote sensing 60 3.4.10 Ceilometer 67 3.4.11 Weather balloon or the Radiosonde 67 3.4.12 Satellite-borne instruments 68 3.5 Summary 71 3.6 Exercises 72 4 The Wind Profile 73 4.1 A hand-waving way of deriving the simple log profile 73 4.2 Working with the log profile 75 4.3 The power law 77 4.4 Averaging times and other dependencies 79 4.5 Two famous profiles 80 4.6 Zero-plane displacement 82 4.7 Internal Boundary Layers (IBL) 83 4.8 Stability 86 4.9 Monin-Obukhov Theory 90 4.10 Deviations with height 94 4.11 Connection with geostrophic drag law 95 4.12 Effect of orography, obstacles and thermal flows on the profile 96 4.13 Direction profile 96 4.14 Summary 97 4.15 Excercises 97 5 Local Flow 99 5.1 Local effects 100 5.2 Orographic forcing 100 5.2.1 Analytical models 101 5.2.2 Attached flow: Flow in simple terrain 104 5.2.3 Detached flow: Flow in complex terrain 107 5.2.4 More advanced models for flow in complex terrain 109 5.3 Roughness 111 5.4 Obstacles 113 5.5 Thermally-driven flows 116 5.5.1 Sea/land breezes 116 5.5.2 Ana-/katabatic winds 118 5.6 Effect of stability 120 5.7 Summary 120 5.8 Exercises 120 6 Turbulence 123 6.1 What generates turbulence? 125 6.2 Reynolds Decomposition and Averaging 125 6.3 Spectra 126 6.3.1 Understanding Fourier analysis and spectra, a poor man/woman's approach 127 6.3.2 Standard types of spectra 131 6.4 Measuring Turbulence 135 6.5 Turbulent Loads 135 6.6 Extreme winds 137 6.7 Summary 137 6.8 Exercises 138 7 Wakes 139 7.1 Turbine-to-turbine wakes 140 7.1.1 The NO Jensen model 142 7.1.2 The Ainslie model 145 7.1.3 Similarity theory 147 7.1.4 Effect on power 149 7.1.5 Wake models, summary 152 7.2 Several wind turbines, i.e. a wind farm 153 7.3 Advanced topics 153 7.3.1 Measuring the wakes 153 7.3.2 Onshore/offshore wakes 155 7.3.3 Very large wind farms, state of the art 156 7.3.4 Wind farm to wind farm interaction 156 7.4 Summary 156 7.5 Exercises 157 8 Modelling 159 8.1 Modelling and what it means 159 8.2 Input 159 8.3 Modelling 160 8.3.1 NWP (Numerical Weather Prediction) models 163 8.3.2 Sub-grid processes 166 8.4 Output 167 8.5 Errors 168 8.6 So, what is a good model? 169 8.7 Chaos 170 8.7.1 Ensemble prediction 171 8.8 Summary 171 8.9 Exercises 173 9 Conclusion 175 References 177 A Cheat sheet 181 B Answers to Exercises 185 C Sample wind speed and direction data 203 Index 205
Note 200 annual accesses. UkHlHU
ISBN 9781118913468 (e-book)
9781118913444 (hbk.) :
9781118913468 (ebook)

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