Verfügbarkeit: Hydrology in practice

Hydrology in practice:

Gespeichert in:

Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	London [u.a.] Spon Press 2011
Ausgabe:	4. ed.
Schlagworte:	Hydrology Hydrologie Biogeochemie Binnengewässer Limnologie Hydrobiologie Ökosystem Ökologie Feuchtgebiet
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIV, 543 S. Ill., graph. Darst., Kt.
ISBN:	9780415370417 9780415370424

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245	1	0	\|a Hydrology in practice \|c Elizabeth M. Shaw , Keith J. Beven, Nick Chappell and Rob Lamb
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Datensatz im Suchindex

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adam_text	Titel: Hydrology in practice Autor: Shaw, Elizabeth M. Jahr: 2011 Contents Preface 1 The hydrological cycle and hydrometeorology 1.1 The hydrological cycle and water pathways 1 1.2 Pathways generating river flow 2 1.3 Hydrometeorological control of hydrological pathways 6 1.4 Evaporation 15 1.5 Precipitation 16 1.6 Weather patterns producing precipitation 19 1.7 Climate 25 Note 29 References 29 PARTI HYDROLOGICAL MEASUREMENTS 2 Hydrometrie networks 30 2.1 Gauging networks 30 2.2 Design considerations 31 2.3 Precipitation networks 32 2.4 Evaporation networks 33 2.5 Overland flow networks 34 2.6 Subsurface water networks 34 2.7 River gauging networks 34 Note 35 References 36 3 Precipitation 37 3.1 Non-recording (storage) rain gauges 38 3.2 Recording rain gauges 40 vi Contents 3.3 Siting the rain gauge 42 3.4 Horizontal rain and occult precipitation gauges 44 3.5 Snowfall gauges 44 3.6 Ground-based rainfall radar 45 3.7 Combined radar and satellite observations 45 3.8 Net precipitation gauges 47 Note 47 References 47 4 Evaporation 49 4.1 Factors affecting evaporation 49 4.2 Measurement of open water evaporation 51 4.3 Measurement of evapotranspiration 56 4.4 Measurement of meteorological variables for evaporation estimation 57 4.5 Direct measurement of evapotranspiration by eddy flux instruments 62 4.6 Scintillometer measurements of evapotranspiration 64 References 64 5 Hillslope and aquifer hydraulic parameters 65 5.1 Saturated hydraulic conductivity 66 5.2 Unsaturated hydraulic conductivity curve 76 5.3 Intrinsic permeability 77 5.4 Porosity 78 5.5 Dispersion coefficient 78 References 79 6 Hillslope moisture states and flows 81 6.1 Subsurface moisture content 81 6.2 Pressure potential, pressure head and hydraulic head 88 6.3 Moisture release curve 92 6.4 Subsurface flow tracing 93 6.5 Overland flow measurement 94 References 98 7 River flow 101 7.1 Open channel flow 101 7.2 River gauging methods 104 7.3 Stage 106 7.4 Discharge by velocity-area methods 111 Contents vii 7.5 Discharge by dilution gauging 118 7.6 Structural methods: flumes and weirs 120 7.7 Stage—discharge relationship 125 Note 132 References 132 8 Water-quality measurement 133 8.1 Water-quality characteristics 134 8.2 Water-quality standards 137 8.3 Water-quality sampling 141 8.4 Laboratory water-quality analyses 145 8.5 Automated field monitoring 147 8.6 Bank-side sample analyses (manual and automatic) 149 8.7 Load estimation, discharge consents and compliance 149 References 152 PARTII HYDROLOGICAL ANALYSIS 9 Precipitation analysis 155 9.1 Precipitation extremes 155 9.2 Spatial variation in precipitation 165 9.3 Missing data 173 9.4 Areal reduction factors and depth-area-duration analysis 174 9.5 Temporal variation in rainfalls 176 9.6 Rainfall frequency analysis 180 9.7 Droughts 187 9.8 Stochastic rainfall models 189 9.9 Other forms of precipitation 191 Notes 191 References 191 10 Energy budget analysis, evapotranspiration and snowmelt 195 10.1 The energy budget and evapotranspiration 195 10.2 Calculation of open water evaporation Eo 199 10.3 Calculation of evapotranspiration, Et 207 10.4 Estimating wet canopy evaporation and interception losses 215 10.5 Estimating Et over a landscape area or catchment 215 10.6 Empirical formulae for Et and Ep 219 10.7 Soil moisture deficit 221 viii Contents 10.8 Land surface parameterisations 224 10.9 Snow and the energy budget 225 Notes 232 References 232 11 River flow analysis 235 11.1 Peak discharges 239 11.2 River regimes 241 11.3 Mixing models for determining runoff sources 244 11.4 Flow-duration curves 250 11.5 Flood frequency 255 11.6 Flood probabilities 257 11.7 Analysis of an annual maximum series 260 11.8 Other statistical distributions used in flood frequency analysis 268 11.9 Using historical flood data 269 11.10 Droughts 270 11.11 Frequency of low flows 2 72 11.12 Low flows and water yield analysis 274 11.13 Some concluding remarks 276 Notes 278 References 278 12 Catchment modelling 280 12.1 The essentials of a catchment model 280 12.2 A simple catchment model 282 12.3 Estimating the proportion of rainfall equivalent to the stormflow hydrograph 283 12.4 Estimating the time distribution of runoff 284 12.5 The unit hydrograph 287 12.6 Conceptual catchment rainfall-runoff models 295 12.7 The application of rainfall-runoff models 297 12.8 Examples of rainfall-runoff models 299 12.9 Uncertainty in rainfall-runoff modelling 312 12.10 Real-time forecasting models 313 Notes 316 References 317 13 Estimating floods and low flows in the UK 322 13.1 Background to the Flood Estimation Handbook 322 13.2 The index flood and growth curve concepts in the Flood Estimation Handbook 323 Contents ix 13.3 Probability distributions used in the Flood Estimation Handbook 327 13.4 Example: Flood Estimation Handbook peak flow estimates for the river Brett, Suffolk 328 13.5 Design event methods in the Flood Estimation Handbook 332 13.6 Low-flow estimation in the UK 341 13.7 Some final comments on methods of régionalisation 347 Notes 347 References 348 14 Flood routing 351 14.1 Simple non-storage routing 353 14.2 Storage routing 355 14.3 Hydraulic routing 369 14.4 Flood routing in practice 373 14.5 Pollutant transport in rivers 376 14.6 Some final comments 382 Notes 383 References 384 15 Ground water 386 15.1 The importance of groundwater 386 15.2 Groundwater flow equations 389 15.3 Flow nets 392 15.4 Unconfined flow and groundwater recharge 396 15.5 Numerical groundwater models 399 15.6 Transport of pollutants in groundwater 404 15.7 Calibration of groundwater flow and transport models 410 Notes 410 References 410 PART III ENGINEERING APPLICATIONS 16 Flood risk management 412 16.1 Drivers for flood risk management 412 16.2 Flood management and land drainage responsibilities in the UK 413 16.3 Flood risk concepts 418 16.4 Flood management policy and delivery 428 16.5 Catchment flood management plans 430 x Contents Notes 436 References 436 17 Water resources management 439 17.1 Drivers for water resources management 439 17.2 Water resources management policy in the UK 440 17.3 Water resources strategies and assessment processes 446 17.4 Supply and demand 448 17.5 Water resources yield assessment 450 Notes 455 References 456 18 Urban hydrology 458 18.1 Hydrological regime modifications 458 18.2 Catchment response modifications 461 18.3 The Transport and Road Research Laboratory rational method 463 18.4 The Transport and Road Research Laboratory hydrograph method 466 18.5 The Wallingford procedure 469 18.6 Urban drainage system modelling 474 18.7 Sustainable urban drainage systems (SUDS) 477 18.8 Urban flood risk mapping 480 18.9 Integrated urban drainage pilots 483 18.10 Industry guidance 485 Note 487 References 487 19 Hydrology, climate and catchment change 489 19.1 Global climate change 489 19.2 UK climate change impacts on river flows 492 19.3 Catchment change 499 19.4 Studies of land management change and flood flows in the UK 505 Notes 512 References 512 PART IV THE FUTURE OF HYDROLOGY IN PRACTICE 20 The future of hydrology in practice 516 Contents xi 20.1 The context of hydrology in practice 516 20.2 The complexities of hydrology 519 20.3 The uncertainties in hydrology 521 20.4 The future data requirements of hydrology 522 20.5 The future modelling requirements of hydrology 526 Notes 528 References 529 Appendix: useful tables 531 Index 535
adam_txt	Titel: Hydrology in practice Autor: Shaw, Elizabeth M. Jahr: 2011 Contents Preface 1 The hydrological cycle and hydrometeorology 1.1 The hydrological cycle and water pathways 1 1.2 Pathways generating river flow 2 1.3 Hydrometeorological control of hydrological pathways 6 1.4 Evaporation 15 1.5 Precipitation 16 1.6 Weather patterns producing precipitation 19 1.7 Climate 25 Note 29 References 29 PARTI HYDROLOGICAL MEASUREMENTS 2 Hydrometrie networks 30 2.1 Gauging networks 30 2.2 Design considerations 31 2.3 Precipitation networks 32 2.4 Evaporation networks 33 2.5 Overland flow networks 34 2.6 Subsurface water networks 34 2.7 River gauging networks 34 Note 35 References 36 3 Precipitation 37 3.1 Non-recording (storage) rain gauges 38 3.2 Recording rain gauges 40 vi Contents 3.3 Siting the rain gauge 42 3.4 Horizontal rain and occult precipitation gauges 44 3.5 Snowfall gauges 44 3.6 Ground-based rainfall radar 45 3.7 Combined radar and satellite observations 45 3.8 Net precipitation gauges 47 Note 47 References 47 4 Evaporation 49 4.1 Factors affecting evaporation 49 4.2 Measurement of open water evaporation 51 4.3 Measurement of evapotranspiration 56 4.4 Measurement of meteorological variables for evaporation estimation 57 4.5 Direct measurement of evapotranspiration by eddy flux instruments 62 4.6 Scintillometer measurements of evapotranspiration 64 References 64 5 Hillslope and aquifer hydraulic parameters 65 5.1 Saturated hydraulic conductivity 66 5.2 Unsaturated hydraulic conductivity curve 76 5.3 Intrinsic permeability 77 5.4 Porosity 78 5.5 Dispersion coefficient 78 References 79 6 Hillslope moisture states and flows 81 6.1 Subsurface moisture content 81 6.2 Pressure potential, pressure head and hydraulic head 88 6.3 Moisture release curve 92 6.4 Subsurface flow tracing 93 6.5 Overland flow measurement 94 References 98 7 River flow 101 7.1 Open channel flow 101 7.2 River gauging methods 104 7.3 Stage 106 7.4 Discharge by velocity-area methods 111 Contents vii 7.5 Discharge by dilution gauging 118 7.6 Structural methods: flumes and weirs 120 7.7 Stage—discharge relationship 125 Note 132 References 132 8 Water-quality measurement 133 8.1 Water-quality characteristics 134 8.2 Water-quality standards 137 8.3 Water-quality sampling 141 8.4 Laboratory water-quality analyses 145 8.5 Automated field monitoring 147 8.6 Bank-side sample analyses (manual and automatic) 149 8.7 Load estimation, discharge consents and compliance 149 References 152 PARTII HYDROLOGICAL ANALYSIS 9 Precipitation analysis 155 9.1 Precipitation extremes 155 9.2 Spatial variation in precipitation 165 9.3 Missing data 173 9.4 Areal reduction factors and depth-area-duration analysis 174 9.5 Temporal variation in rainfalls 176 9.6 Rainfall frequency analysis 180 9.7 Droughts 187 9.8 Stochastic rainfall models 189 9.9 Other forms of precipitation 191 Notes 191 References 191 10 Energy budget analysis, evapotranspiration and snowmelt 195 10.1 The energy budget and evapotranspiration 195 10.2 Calculation of open water evaporation Eo 199 10.3 Calculation of evapotranspiration, Et 207 10.4 Estimating wet canopy evaporation and interception losses 215 10.5 Estimating Et over a landscape area or catchment 215 10.6 Empirical formulae for Et and Ep 219 10.7 Soil moisture deficit 221 viii Contents 10.8 Land surface parameterisations 224 10.9 Snow and the energy budget 225 Notes 232 References 232 11 River flow analysis 235 11.1 Peak discharges 239 11.2 River regimes 241 11.3 Mixing models for determining runoff sources 244 11.4 Flow-duration curves 250 11.5 Flood frequency 255 11.6 Flood probabilities 257 11.7 Analysis of an annual maximum series 260 11.8 Other statistical distributions used in flood frequency analysis 268 11.9 Using historical flood data 269 11.10 Droughts 270 11.11 Frequency of low flows 2 72 11.12 Low flows and water yield analysis 274 11.13 Some concluding remarks 276 Notes 278 References 278 12 Catchment modelling 280 12.1 The essentials of a catchment model 280 12.2 A simple catchment model 282 12.3 Estimating the proportion of rainfall equivalent to the stormflow hydrograph 283 12.4 Estimating the time distribution of runoff 284 12.5 The unit hydrograph 287 12.6 Conceptual catchment rainfall-runoff models 295 12.7 The application of rainfall-runoff models 297 12.8 Examples of rainfall-runoff models 299 12.9 Uncertainty in rainfall-runoff modelling 312 12.10 Real-time forecasting models 313 Notes 316 References 317 13 Estimating floods and low flows in the UK 322 13.1 Background to the Flood Estimation Handbook 322 13.2 The index flood and growth curve concepts in the Flood Estimation Handbook 323 Contents ix 13.3 Probability distributions used in the Flood Estimation Handbook 327 13.4 Example: Flood Estimation Handbook peak flow estimates for the river Brett, Suffolk 328 13.5 Design event methods in the Flood Estimation Handbook 332 13.6 Low-flow estimation in the UK 341 13.7 Some final comments on methods of régionalisation 347 Notes 347 References 348 14 Flood routing 351 14.1 Simple non-storage routing 353 14.2 Storage routing 355 14.3 Hydraulic routing 369 14.4 Flood routing in practice 373 14.5 Pollutant transport in rivers 376 14.6 Some final comments 382 Notes 383 References 384 15 Ground water 386 15.1 The importance of groundwater 386 15.2 Groundwater flow equations 389 15.3 Flow nets 392 15.4 Unconfined flow and groundwater recharge 396 15.5 Numerical groundwater models 399 15.6 Transport of pollutants in groundwater 404 15.7 Calibration of groundwater flow and transport models 410 Notes 410 References 410 PART III ENGINEERING APPLICATIONS 16 Flood risk management 412 16.1 Drivers for flood risk management 412 16.2 Flood management and land drainage responsibilities in the UK 413 16.3 Flood risk concepts 418 16.4 Flood management policy and delivery 428 16.5 Catchment flood management plans 430 x Contents Notes 436 References 436 17 Water resources management 439 17.1 Drivers for water resources management 439 17.2 Water resources management policy in the UK 440 17.3 Water resources strategies and assessment processes 446 17.4 Supply and demand 448 17.5 Water resources yield assessment 450 Notes 455 References 456 18 Urban hydrology 458 18.1 Hydrological regime modifications 458 18.2 Catchment response modifications 461 18.3 The Transport and Road Research Laboratory rational method 463 18.4 The Transport and Road Research Laboratory hydrograph method 466 18.5 The Wallingford procedure 469 18.6 Urban drainage system modelling 474 18.7 Sustainable urban drainage systems (SUDS) 477 18.8 Urban flood risk mapping 480 18.9 Integrated urban drainage pilots 483 18.10 Industry guidance 485 Note 487 References 487 19 Hydrology, climate and catchment change 489 19.1 Global climate change 489 19.2 UK climate change impacts on river flows 492 19.3 Catchment change 499 19.4 Studies of land management change and flood flows in the UK 505 Notes 512 References 512 PART IV THE FUTURE OF HYDROLOGY IN PRACTICE 20 The future of hydrology in practice 516 Contents xi 20.1 The context of hydrology in practice 516 20.2 The complexities of hydrology 519 20.3 The uncertainties in hydrology 521 20.4 The future data requirements of hydrology 522 20.5 The future modelling requirements of hydrology 526 Notes 528 References 529 Appendix: useful tables 531 Index 535
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id	DE-604.BV035011605
illustrated	Illustrated
index_date	2024-07-02T21:44:00Z
indexdate	2024-07-09T21:20:09Z
institution	BVB
isbn	9780415370417 9780415370424
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016680846
oclc_num	732687137
open_access_boolean
owner	DE-29 DE-91 DE-BY-TUM DE-703 DE-824 DE-19 DE-BY-UBM
owner_facet	DE-29 DE-91 DE-BY-TUM DE-703 DE-824 DE-19 DE-BY-UBM
physical	XIV, 543 S. Ill., graph. Darst., Kt.
publishDate	2011
publishDateSearch	2011
publishDateSort	2011
publisher	Spon Press
record_format	marc
spelling	Hydrology in practice Elizabeth M. Shaw , Keith J. Beven, Nick Chappell and Rob Lamb 4. ed. London [u.a.] Spon Press 2011 XIV, 543 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Hydrology Hydrologie (DE-588)4026309-5 gnd rswk-swf Biogeochemie (DE-588)4125243-3 gnd rswk-swf Binnengewässer (DE-588)4006758-0 gnd rswk-swf Limnologie (DE-588)4035769-7 gnd rswk-swf Hydrobiologie (DE-588)4026300-9 gnd rswk-swf Ökosystem (DE-588)4043216-6 gnd rswk-swf Ökologie (DE-588)4043207-5 gnd rswk-swf Feuchtgebiet (DE-588)4016960-1 gnd rswk-swf Hydrologie (DE-588)4026309-5 s DE-604 Binnengewässer (DE-588)4006758-0 s Biogeochemie (DE-588)4125243-3 s Ökologie (DE-588)4043207-5 s 1\p DE-604 Feuchtgebiet (DE-588)4016960-1 s Ökosystem (DE-588)4043216-6 s 2\p DE-604 Hydrobiologie (DE-588)4026300-9 s 3\p DE-604 Limnologie (DE-588)4035769-7 s 4\p DE-604 Shaw, Elizabeth M. Sonstige oth Erscheint auch als Online-Ausgabe 978-0-203-03023-3 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016680846&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 4\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Hydrology in practice Hydrology Hydrologie (DE-588)4026309-5 gnd Biogeochemie (DE-588)4125243-3 gnd Binnengewässer (DE-588)4006758-0 gnd Limnologie (DE-588)4035769-7 gnd Hydrobiologie (DE-588)4026300-9 gnd Ökosystem (DE-588)4043216-6 gnd Ökologie (DE-588)4043207-5 gnd Feuchtgebiet (DE-588)4016960-1 gnd
subject_GND	(DE-588)4026309-5 (DE-588)4125243-3 (DE-588)4006758-0 (DE-588)4035769-7 (DE-588)4026300-9 (DE-588)4043216-6 (DE-588)4043207-5 (DE-588)4016960-1
title	Hydrology in practice
title_auth	Hydrology in practice
title_exact_search	Hydrology in practice
title_exact_search_txtP	Hydrology in practice
title_full	Hydrology in practice Elizabeth M. Shaw , Keith J. Beven, Nick Chappell and Rob Lamb
title_fullStr	Hydrology in practice Elizabeth M. Shaw , Keith J. Beven, Nick Chappell and Rob Lamb
title_full_unstemmed	Hydrology in practice Elizabeth M. Shaw , Keith J. Beven, Nick Chappell and Rob Lamb
title_short	Hydrology in practice
title_sort	hydrology in practice
topic	Hydrology Hydrologie (DE-588)4026309-5 gnd Biogeochemie (DE-588)4125243-3 gnd Binnengewässer (DE-588)4006758-0 gnd Limnologie (DE-588)4035769-7 gnd Hydrobiologie (DE-588)4026300-9 gnd Ökosystem (DE-588)4043216-6 gnd Ökologie (DE-588)4043207-5 gnd Feuchtgebiet (DE-588)4016960-1 gnd
topic_facet	Hydrology Hydrologie Biogeochemie Binnengewässer Limnologie Hydrobiologie Ökosystem Ökologie Feuchtgebiet
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016680846&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT shawelizabethm hydrologyinpractice

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