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Giles Harrison

Meteorological Measurements and Instrumentation (eBook, PDF)

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Produktbeschreibung

This book describes the fundamental scientific principles underlying high quality instrumentation used for environmental measurements. It discusses a wide range of in situ sensors employed in practical environmental monitoring and, in particular, those used in surface based measurement systems. It also considers the use of weather balloons to provide a wealth of upper atmosphere data. To illustrate the technologies in use it includes many examples of real atmospheric measurements in typical and unusual circumstances, with a discussion of the electronic signal conditioning, data acquisition considerations and data processing principles necessary for reliable measurements. This also allows the long history of atmospheric measurements to be placed in the context of the requirements of modern climate science, by building the physical science appreciation of the instrumental record and looking forward to new and emerging sensor and recording technologies.

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Produktdetails

Produktdetails
Verlag: John Wiley & Sons
Seitenzahl: 280
Erscheinungstermin: 9. Oktober 2014
Englisch
ISBN-13: 9781118745786
Artikelnr.: 41739447

Produktdetails

Verlag: John Wiley & Sons
Seitenzahl: 280
Erscheinungstermin: 9. Oktober 2014
Englisch
ISBN-13: 9781118745786
Artikelnr.: 41739447

Autorenporträt

Giles Harrison is Professor of Atmospheric Physics at the Department of Meteorology at the University of Reading, UK. His research focuses on one of the oldest experimental topics in meteorology, atmospheric electricity and the development of new surface and balloon-carried instruments for environmental measurements.

Inhaltsangabe

Series Foreword xi Preface xiii Acknowledgements xv Disclaimer xvii 1
Introduction 1 1.1 The instrumental age 2 1.2 Measurements and the climate
record 2 1.3 Clouds and rainfall 3 1.4 Standardisation of air temperature
measurements 4 1.5 Upper air measurements 5 1.5.1 Manned balloon ascents 6
1.5.2 Self-reporting upper air instruments 7 1.6 Scope and structure 8 2
Principles of Measurement and Instrumentation 9 2.1 Instruments and
measurement systems 9 2.1.1 Instrument response characterisation 10 2.1.2
Measurement quality 12 2.2 Instrument response time 14 2.2.1 Response to a
step-change 14 2.2.2 Response to an oscillation 15 2.3 Deriving the
standard error 18 2.3.1 Sample mean 18 2.3.2 Standard error 20 2.3.3
Quoting results 20 2.4 Calculations combining uncertainties 21 2.4.1 Sums
and differences 21 2.4.2 Products and quotients 22 2.4.3 Uncertainties from
functions 23 2.5 Calibration experiments 23 3 Electronics and Analogue
Signal Processing 27 3.1 Voltage measurements 28 3.2 Signal conditioning 28
3.2.1 Operational amplifiers 29 3.2.2 Operational amplifier fundamentals 30
3.2.3 Signal amplification 31 3.2.4 Buffer amplifiers 33 3.2.5 Inverting
amplifier 33 3.2.6 Line driving 35 3.2.7 Power supplies 36 3.3 Voltage
signals 38 3.3.1 Electrometers 38 3.3.2 Microvolt amplifier 40 3.4 Current
measurement 41 3.4.1 Current to voltage conversion 42 3.4.2 Photocurrent
amplifier 43 3.4.3 Logarithmic measurements 44 3.4.4 Calibration currents
45 3.5 Resistance measurement 46 3.5.1 Thermistor resistance measurement 46
3.5.2 Resistance bridge methods 47 3.6 Oscillatory signals 50 3.6.1
Oscillators 50 3.6.2 Phase-locked loops 53 3.6.3 Frequency to voltage
conversion 54 3.7 Physical implementation 54 4 Data Acquisition Systems and
Initial Data Analysis 57 4.1 Data acquisition 57 4.1.1 Count data 59 4.1.2
Frequency data 60 4.1.3 Interval data 60 4.1.4 Voltage data 61 4.1.5
Sampling 63 4.1.6 Time synchronisation 66 4.2 Custom data logging systems
66 4.2.1 Data acquisition cards 67 4.2.2 Microcontroller systems 67 4.2.3
Automatic Weather Stations 68 4.3 Management of data files 69 4.3.1 Data
logger programming 69 4.3.2 Data transfer 70 4.3.3 Data file considerations
71 4.4 Preliminary data examination 72 4.4.1 In situ calibration 72 4.4.2
Time series 73 4.4.3 Irregular and intermittent time series 75 4.4.4
Further data analysis 75 5 Temperature 77 5.1 The Celsius temperature scale
77 5.2 Liquid in glass thermometry 78 5.2.1 Fixed interval temperature
scales 78 5.2.2 Liquid-in-glass thermometers 79 5.3 Electrical temperature
sensors 80 5.3.1 Thermocouple 81 5.3.2 Semiconductor 81 5.3.3 Thermistor 82
5.3.4 Metal resistance thermometry 83 5.4 Resistance thermometry
considerations 86 5.4.1 Thermistor measurement 87 5.4.2 Platinum resistance
measurement 89 5.5 Thermometer exposure 90 5.5.1 Radiation error of air
temperature sensors 90 5.5.2 Thermometer radiation screens 91 5.5.3
Radiation errors on screen temperatures 93 5.5.4 Lag times in screen
temperatures 95 5.5.5 Screen condition 98 5.5.6 Modern developments in
screens 99 5.6 Surface and below-surface temperature measurements 99 5.6.1
Surface temperatures 99 5.6.2 Soil temperatures 100 5.6.3 Ground heat flux
density 100 6 Humidity 103 6.1 Water vapour as a gas 103 6.2 Physical
measures of humidity 105 6.2.1 Absolute humidity 106 6.2.2 Specific
humidity 106 6.2.3 Relative humidity 107 6.2.4 Dew point and wet bulb
temperature 107 6.3 Hygrometers and their operating principles 109 6.3.1
Mechanical 109 6.3.2 Chemical 111 6.3.3 Electronic 111 6.3.4 Spectroscopic
112 6.3.5 Radio refractive index 113 6.3.6 Dew point meter 114 6.3.7
Psychrometer 114 6.4 Practical psychrometers 116 6.4.1 Effect of
temperature uncertainties 118 6.4.2 Ventilation effects 118 6.4.3 Freezing
of the wet bulb 120 6.5 Hygrometer calibration using salt solutions 121 6.6
Comparison of hygrometry techniques 122 7 Atmospheric Pressure 123 7.1
Introduction 123 7.2 Barometers 123 7.2.1 Liquid barometers 124 7.2.2
Mercury barometers 125 7.2.3 Hypsometer 127 7.2.4 Aneroid barometers 127
7.2.5 Precision aneroid barometers 128 7.2.6 Flexible diaphragm sensors 129
7.2.7 Vibrating cylinder barometer 129 7.3 Corrections to barometers 129
7.3.1 Sea level correction 130 7.3.2 Wind speed corrections 131 8 Wind
Speed and Direction 133 8.1 Introduction 133 8.2 Types of anemometer 133
8.2.1 Pressure plate anemometers 133 8.2.2 Pressure tube anemometer 134
8.2.3 Cup anemometers 134 8.2.4 Propeller anemometer 136 8.2.5 Hot sensor
anemometer 137 8.2.6 Sonic anemometer 139 8.3 Wind direction 141 8.3.1 Wind
vanes 142 8.3.2 Horizontal wind components 144 8.3.3 Multi-component
research anemometers 146 8.4 Anemometer exposure 146 8.4.1 Anemometer
deficiencies 146 8.5 Wind speed from kite tether tension 148 9 Radiation
151 9.1 Introduction 151 9.2 Solar geometry 154 9.2.1 Orbital variations
154 9.2.2 Diurnal variation 155 9.2.3 Solar time corrections 155 9.2.4 Day
length calculation 156 9.2.5 Irradiance calculation 157 9.3 Shortwave
radiation instruments 158 9.3.1 Thermopile pyranometer 158 9.3.2
Pyranometer theory 159 9.3.3 Silicon pyranometers 162 9.4 Pyrheliometers
162 9.5 Diffuse solar radiation measurement 164 9.5.1 Occulting disk method
164 9.5.2 Shade ring method 165 9.5.3 Reflected shortwave radiation 168
9.5.4 Fluctuations in measured radiation 169 9.6 Reference solar radiation
instruments 171 9.6.1 Cavity radiometer 172 9.6.2 Secondary pyrheliometers
172 9.7 Longwave instruments 173 9.7.1 Pyrradiometer theory 173 9.7.2
Pyrradiometer calibration 174 9.7.3 Pyrgeometer measurements 175 9.7.4
Commercial pyrradiometers 175 9.7.5 Radiation thermometry 177 9.8 Sunshine
duration 178 9.8.1 Campbell-Stokes sunshine recorder 180 9.8.2 Electronic
sensors 181 10 Clouds, Precipitation and Atmospheric Electricity 183 10.1
Introduction 183 10.2 Visual range 183 10.2.1 Point visibility meters 184
10.2.2 Transmissometers 185 10.2.3 Present weather sensors 185 10.3 Cloud
base measurements 186 10.4 Rain gauges 187 10.4.1 Tilting siphon 188 10.4.2
Tipping bucket 188 10.4.3 Disdrometers 191 10.5 Atmospheric electricity 191
10.5.1 Potential Gradient instrumentation 191 10.5.2 Variability in the
Potential Gradient 192 10.5.3 Lightning detection 193 11 Upper Air
Instruments 195 11.1 Radiosondes 195 11.1.1 Sounding balloons 196 11.2
Radiosonde technology 197 11.2.1 Pressure sensor 199 11.2.2 Temperature and
humidity sensors 200 11.2.3 Wind measurements from position information 201
11.2.4 Data telemetry 202 11.2.5 Radio transmitter 203 11.3 Uncertainties
in radiosonde measurements 204 11.3.1 Response time 204 11.3.2 Radiation
errors 204 11.3.3 Wet-bulbing 206 11.3.4 Location error 207 11.3.5
Telemetry errors 208 11.4 Specialist radiosondes 209 11.4.1 Cloud
electrification 209 11.4.2 Ozone 209 11.4.3 Radioactivity and cosmic rays
210 11.4.4 Radiation 210 11.4.5 Turbulence 211 11.4.6 Supercooled liquid
water 211 11.4.7 Atmospheric aerosol 212 11.5 Aircraft measurements 212
11.5.1 Air temperature 212 11.5.2 Wind 212 11.5.3 Pressure 213 11.5.4
Altitude 213 11.6 Small robotic aircraft 213 12 Further Methods for
Environmental Data Analysis 215 12.1 Physical models 215 12.1.1 Surface
energy balance 215 12.1.2 Turbulent quantities and eddy covariance 217
12.1.3 Soil temperature model 218 12.1.4 Vertical wind profile 220 12.2
Solar radiation models 222 12.2.1 Langley's solar radiation method 222
12.2.2 Surface solar radiation: Holland's model 224 12.3 Statistical models
225 12.3.1 Histograms and distributions 226 12.3.2 Statistical tests 226
12.3.3 Wind gusts 229 12.4 Ensemble averaging 229 12.4.1 Solar radiation
variation 230 12.4.2 Pressure tides 231 12.4.3 Carnegie curve 231 12.5
Spectral methods 233 12.5.1 Power spectra 233 12.5.2 Micrometeorological
power spectra 235 12.6 Conclusion 237 Appendix A Writing a Brief
Instrumentation Paper 239 A.1 Scope of an instrument paper 239 A.2
Structure of an instrument paper 239 A.2.1 Paper title 239 A.2.2 Abstract
240 A.2.3 Keywords 240 A.2.4 Motivation 240 A.2.5 Description 240 A.2.6
Comparison 241 A.2.7 Figures 241 A.2.8 Summary 242 A.2.9 Acknowledgements
242 A.3 Submission and revisions 242 Appendix B Anemometer Coordinate
Rotations 243 References 247 Index 253

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