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Format:	Buch
Sprache:	English
Veröffentlicht:	Highlands Ranch, Colo. Water Resources Publ. 2002
Schlagworte:	Bacia hidrográfica Bassins hydrographiques - Modèles mathématiques Modelos matemáticos Modèles hydrologiques aWatersheds > xmathematical models aHydrologic models
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Beschreibung:	CD-ROM-Beil. u.d.T.: MathMod
Beschreibung:	XXII, 891 S. graph. Darst., Kt. 1 CD-ROM (12 cm)
ISBN:	1887201343

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adam_text	Titel: Mathematical models of large watershed hydrology Autor: Singh, Vijay P. Jahr: 2002 TABLE OF CONTENTS CHAPTER PAGE DEDICATION.................................................................................................í PREFACE......................................................................................................vii CONTRIBUTORS..........................................................................................xi 1. MATHEMATICAL MODELING OF WATERSHED HYDROLOGY- V. P. Singh andD. K. Frevert.................................1 ABSTRACT........................................................................................................1 1.1. INTRODUCTION..................................................................................1 1.2. A SHORT HISTORICAL PERSPECTIVE..........................................4 1.3. OBJECTIVE...........................................................................................5 1.4. BASIC CONSIDERATIONS IN MODEL CONSTRUCTION.................................................................................6 1.5 PERSPECTIVE ON MODEL BUILDING.........................................10 1.6 COMPONENT PROCESS MODELING...........................................11 1.7. CLASSIFICATION OF WATERSHED MODELS...........................16 1.8. WATERSHED HYDROLOGY MODELS........................................17 1.9. COMPARISON OF WATERSHED HYDROLOGY MODELS.............................................................................................. 18 1.10. FUTURE OUTLOOK..........................................................................19 CONCLUSIONS..............................................................................................20 REFERENCES.................................................................................................21 SECTION 1: PARAMETER ESTIMATION................................23 2. EMERGING PARADIGMS IN THE CALIBRATION OF HYDROLOGIC MODELS ~ L. A. Bastidas, H. V. Gupta and S. Sorooshian.................................................................................25 ABSTRACT......................................................................................................25 2.1. INTRODUCTION................................................................................26 2.2. TOWARD A MULTI-OBJECTIVE VIEW........................................28 2.3. MULTI-CRITERIA PARAMETER ESTIMATION METHODOLOGY...............................................................................29 2.4. MULTI-OBJECTIVE OPTIMIZATION............................................35 xv 2.5. APPLICATION OF THE MULTI-CRITERIA CALI- BRATION FRAMEWORK TO A HYDROLOGIC MODEL.................................................................................................38 2.6. APPLICATION OF THE MULTI-CRITERIA FRAME- WORK TO A LAND SURFACE SCHEME.......................................47 2.7. APPLICATION OF THE MULTI-CRITERIA FRAMEWORK TO A HYDROCHEMICAL MODEL.....................53 SUMMARY AND CONCLUSIONS...............................................................55 ACKNOWLEDGEMENTS..............................................................................56 REFERENCES..................................................................................................57 3. ANN MODELING IN WATERSHED HYDROLOGY ~ C. S. P. Ojha and V. P. Singh..............................................................67 ABSTRACT......................................................................................................67 3.1. INTRODUCTION................................................................................67 3.2. TRAINING OF ANN...........................................................................70 3.3. ANALYSIS OF RAINFALL-RUNOFF DATA.................................74 3.4. ANALYSIS OF RUNOFF-SEDIMENT TRANSPORT DATA....................................................................................................80 3.5. ANALYSIS OF RIVER BED PATTERNS........................................83 3.6. REPRESENTATION OF INPUT-OUTPUT QUALITY...................84 SUMMARY......................................................................................................85 REFERENCES..................................................................................................86 NOTATIONS....................................................................................................87 SECTION 2: MODEL TESTING..................................................89 4. A TOOLKIT FOR THE DEVELOPMENT AND APPLICATION OF PARSIMONIOUS HYDROLOGICAL MODELS ~ T. Wagener, M. J. Lees and H. S. Wheater....................91 ABSTRACT......................................................................................................91 4.1. INTRODUCTION................................................................................91 4.2. PARSIMONIOUS RAINFALL-RUNOFF MODELING...................93 4.3. ANALYTICAL MODELING FRAMEWORK..................................95 4.4. RAINFALL-RUNOFF MODELING COMPONENT........................96 4.5. MONTE-CARLO ANALYSIS TOOLBOX.....................................115 4.6. APPLICATION EXAMPLES............................................................123 CONCLUSIONS.............................................................................................131 ACKNOWLEDGEMENTS............................................................................132 REFERENCES................................................................................................J32 XVI 5. TESTING HYDROLOGIC MODELS: FORTIFICATION OR FALSIFICATION ~ G. Kuczera and S. W. Franks...................141 ABSTRACT....................................................................................................141 5.1. INTRODUCTION..............................................................................141 5.2. KEY CONCEPTS..............................................................................142 5.3. A PROBABILISTIC FRAMEWORK FOR MODEL TESTING............................................................................................156 5.4. MORE POWERFUL FALSIFICATION USING DATA AUGMENTATION...........................................................................167 CONCLUSIONS............................................................................................181 REFERENCES...............................................................................................181 SECTION 3: REGIONAL AND GLOBAL HYDROLOGY MODELS.......................................................................................187 6. A GLOBAL HYDROLOGIC MODEL ~ M. L. Kavva.s and M. Anderson....................................................................................... 1X9 ABSTRACT.................................................................................................... 189 6.1. INTRODUCTION..............................................................................189 6.2. THE ATMOSPHERIC SYSTEM......................................................190 6.3. THE OCEANIC SYSTEM................................................................196 6.4 THE HYDROLOGIC SYSTEM.......................................................198 6.5. CRYOGENIC SYSTEM....................................................................201 6.6. GLOBAL HYDROLOGIC MODEL EQUATIONS........................202 6.7. MODEL STRUCTURE AND PARAMETERIZATION.................206 6.8. CURRENT MODEL STATUS AND FUTURE DEVELOPMENT..............................................................................218 6.9. APPLICATION..................................................................................219 CONCLUSIONS............................................................................................233 REFERENCES...............................................................................................234 7. REGIONAL-SCALE HYDROCLIMATE MODEL - J. Yoshitani, M. L. Kawas andZ.-Q. Chen.......................................237 ABSTRACT....................................................................................................237 7.1. INCORPORATING DIFFERENT SCALE PROCESSES..............237 7.2. EQUATIONS FOR ATMOSPHERIC DYNAMICS.......................241 7.3. BOUNDARY LAYER PARAMETERIZATION............................246 7.4. HEAT TRANSFER PROCESS ON LAND SURFACE..................251 7.5. LAND SURFACE MOISTURE FLOW MODEL............................253 7.6. RAINFALL PARAMETERIZATION..............................................274 7.7. DEVELOPMENT OF JAPAN MODEL AND APPLICATION..................................................................................274 XVII REFERENCES................................................................................................281 8. REGIONAL SIMULATION OF THE WATER BUDGET AND RIVERFLOWS WITH THE ISBA-MODCOU COUPLED MODEL: APPLICATION TO THE ADOUR AND RHONE BASINS ~ E. Ledoux, P. Etchevers, C. Golaz, F. Habets, J. Noilhan and S. Voirin..................................283 ABSTRACT....................................................................................................283 8.1. INTRODUCTION..............................................................................284 8.2. THE MODELS...................................................................................285 8.3. IMPLEMENTATION OF ISBA-MODCOU....................................292 8.4. RESULTS OF ISBA-MODCOU SIMULATIONS ON THE ADOUR AND RHONE BASINS......................................................298 8.5. IMPACT OF THE HORIZONTAL RESOLUTION........................310 CONCLUSIONS.............................................................................................313 ACKNOWLEDGEMENTS............................................................................314 REFERENCES................................................................................................315 SECTION 4: DISTRIBUTED MODELS....................................319 9. THE HYDROLOGICAL MODELING SYSTEM ARC/EGMO ~?. Becker, B. Klöcking, W. Lahmer, and B. Pfützner..........................................................................................321 ABSTRACT....................................................................................................321 9.1. INTRODUCTION..............................................................................322 9.2. LAND SURFACE HETEROGENEITY AND ITS ASSESSMENT...................................................................................322 9.3. STRUCTURAL DESIGN OF ARC/EGMO.....................................324 9.4. SPATIAL DISAGGREGATION AND ASPECTS OF PARAMETER ESTIMATION..........................................................326 9.5. MODEL COMPONENTS FOR VERTICAL PROCESSES............335 9.6. SELECTED ASPECTS OF DATA PROCESSING FOR ARC/EGMO APPLICATIONS.........................................................356 9.7. CASE STUDY 1: THE STEPENITZ BASIN...................................361 9.8. CASE STUDY 2: THE SAALE BASIN...........................................373 CONCLUSION AND OUTLOOK................................................................380 REFERENCES................................................................................................381 10. A STORM SIMULATION IN LARGE WATERSHEDS WITH A HYDROLOGICAL MODEL SYSTEM AND A MESOSCALE METEOROLOGICAL MODEL ~ Z. Yu.................385 ABSTRACT....................................................................................................385 XV1I1 10.1. INTRODUCTION..............................................................................386 10.2. HYDROLOGIC MODEL SYSTEM (HMS)....................................387 10.3. MESOSCALE METEOROLOGICAL MODEL..............................398 10.4. SUBGRID SCALE SPATIAL VARIABILITY...............................400 10.5. STUDY SITE.....................................................................................403 10.6. DATA PREPROCESSING................................................................404 10.7. MODEL CALIBRATION.................................................................412 10.8. STORM SIMULATION....................................................................416 10.9. HYDROLOGIC SIMULATION WITH OBSERVED PRECIPITATION..............................................................................417 10.10. HYDROLOGIC SIMULATION WITH MM5-SIMU- LATED PRECIPITATION................................................................422 SUMMARY....................................................................................................424 ACKNOWLEDGMENTS..............................................................................425 REFERENCES...............................................................................................426 11. NUMERICAL MODEL OF RIVER FLOW FORMATION FROM SMALL TO LARGE SCALE RIVER BASINS ~ X. Ma and Y. Fnkushima....................................................................433 ABSTRACT....................................................................................................433 11.1. INTRODUCTION..............................................................................433 11.2. ONE-DIMENSION MODEL FOR ATMOSPHERE-LAND SURFACE INTERACTION..............................................................434 11.3. RUNOFF FORMATION FOR SMALL WATERSHED.................449 11.4. HYDROLOGICAL MODELING FOR MACRO-SCALE WATERSHED...................................................................................456 SUMMARY....................................................................................................467 REFERENCES...............................................................................................468 12. THE TOPKAPI MODEL ~ E. Todini andL. Ciampica..................471 ABSTRACT....................................................................................................471 12.1. INTRODUCTION..............................................................................471 12.2. THE DISTRIBUTED TOPKAPI APPROACH................................474 12.3. THE LUMPED TOPKAPI APPROACH..........................................487 12.4. EXAMPLE OF APPLICATION.......................................................495 CONCLUSIONS AND PERSPECTIVES....................................................502 REFERENCES...............................................................................................504 13. CEQUEAU HYDROLOGICAL MODEL ~ G. Morin...................507 ABSTRACT....................................................................................................507 13.1. INTRODUCTION..............................................................................508 13.2. GENERAL STRUCTURE OF CEQUEAU......................................509 xix 13.3. SCHEMATIC REPRESENTATION OF THE WATERSHED....................................................................................516 13.4. PREPARATION OF METEOROLOGICAL AND HYDROMETRIC DATA...................................................................522 13.5. CEQUEAU QUANTITY SIMULATION.........................................525 13.6. EXAMPLE OF APPLICATION........................................................562 REFERENCES................................................................................................575 SECTION 5: CONCEPTUAL MODELS....................................577 14. LASCAM: LARGE SCALE CATCHMENT MODEL ~ M. Sivapalan, N. R. Viney, and C. Zammit........................................579 ABSTRACT....................................................................................................579 14.1. INTRODUCTION..............................................................................579 14.2. LASCAM MODELING PHILOSOPHY...........................................580 14.3. ORGANIZATIONAL STRUCTURE OF THE LARGE CATCHMENT MODEL....................................................................583 14.4. DESCRIPTION OF THE SMALL CATCHMENT MODEL (BUILDING BLOCK MODEL)........................................................586 14.5. DATA REQUIREMENTS.................................................................600 14.6. PARAMETER ESTIMATION..........................................................600 14.7. EXAMPLES OF APPLICATIONS...................................................601 14.8. LIMITATIONS OF LASCAM..........................................................622 14.9. PLANNED FUTURE IMPROVEMENTS TO LASCAM...............623 ACKNOWLEDGEMENTS............................................................................623 APPENDIX 1 : SYMBOLS AND VARIABLE NAMES.............................624 APPENDIX 2: LASCAM MODEL EQUATIONS......................................631 APPENDIX 3: TYPICAL LASCAM PARAMETER VALUES................640 REFERENCES................................................................................................643 15. WATFLOOD/SPL9: HYDROLOGICAL MODEL FLOOD FORECASTING SYSTEM ~ N. Kouwen and S. F. Mousavi..............................................................................................649 ABSTRACT....................................................................................................649 15.1. HYDROLOGICAL MODEL.............................................................650 15.2. APPLICATION..................................................................................676 SUMMARY....................................................................................................681 ACKNOWLEDGEMENTS............................................................................681 REFERENCES................................................................................................681 16. THE ARNO MODEL ~ E. Todini.....................................................687 ABSTRACT....................................................................................................687 xx 16.1. INTRODUCTION..............................................................................687 16.2. DESCRIPTION OF THE ARNO MODEL.......................................688 16.3. THE ARNO MODEL PARAMETERS............................................707 16.4. APPLICATION OF THE ARNO MODEL......................................709 CONCLUSIONS............................................................................................713 REFERENCES...............................................................................................714 17. LARGE BASIN RUNOFF MODEL ~ T. E. Croley II.....................717 ABSTRACT....................................................................................................717 17.1. INTRODUCTION..............................................................................718 17.2. TANK CASCADE MODELS...........................................................719 17.3. DESCRIPTION OF RUNOFF MODEL...........................................721 17.4. APPLICATION..................................................................................737 17.5. EXAMPLE APPLICATION.............................................................740 17.6. CALIBRATION.................................................................................746 17.7. CALIBRATION PROBLEMS..........................................................758 17.8. MODEL VALIDITY AND APPLICABILITY................................761 SUMMARY....................................................................................................763 ACKNOWLEDGMENT................................................................................764 REFERENCES...............................................................................................764 NOTATION....................................................................................................768 18. MODELING RUNOFF FROM HYDROLOGICALLY SIMILAR AREAS ~ H. Koivusalo, T. Kokkonen and T. Karvonen........................................................................................771 ABSTRACT....................................................................................................771 18.1. INTRODUCTION..............................................................................772 18.2. GENERAL DESCRIPTION OF THE MODELING SYSTEM............................................................................................774 18.3. SUBMODEL DESCRIPTIONS........................................................777 18.4. CASE STUDIES................................................................................790 CONCLUSIONS............................................................................................806 ACKNOWLEDGEMENTS...........................................................................807 REFERENCES...............................................................................................807 19. MATHEMATICAL MODEL OF RAINFALL-RUNOFF TRANSFORMATION-WISTOO ~ M. Ozga-Zielinska, W. Gadek, K. Ksiazynski, E. Nachlik, and R. Szczepanek ................811 ABSTRACT....................................................................................................811 19.1. INTRODUCTION..............................................................................812 19.2. DESCRIPTION OF PARTIAL PROCESSES..................................816 XXI 19.3. STRUCTURE OF COMPUTER PROGRAM FOR WISTOO MODEL..............................................................................840 19.4. RANGE OF MODEL APPLICATION.............................................848 19.5. EXAMPLE OF WISTOO MODEL APPLICATION FOR LOSOSINA RIVER WATERSHED.................................................849 19.6. A FEW WORDS ABOUT THE MODEL.........................................857 SYMBOLS......................................................................................................857 REFERENCES................................................................................................860 20. THE CLS MODEL ~ E. Todini.........................................................861 ABSTRACT....................................................................................................861 20.1. INTRODUCTION..............................................................................861 20.2. THE SOIL MOISTURE THRESHOLD EFFECT IN THE RAINFALL-RUNOFF.......................................................................865 20.3. THE CONSTRAINED ESTIMATION TECHNIQUE.....................871 20.4. EXAMPLES OF APPLICATION.....................................................878 CONCLUSIONS.............................................................................................883 REFERENCES................................................................................................884 SUBJECT INDEX.......................................................................................887 xxii
adam_txt	Titel: Mathematical models of large watershed hydrology Autor: Singh, Vijay P. Jahr: 2002 TABLE OF CONTENTS CHAPTER PAGE DEDICATION.í PREFACE.vii CONTRIBUTORS.xi 1. MATHEMATICAL MODELING OF WATERSHED HYDROLOGY- V. P. Singh andD. K. Frevert.1 ABSTRACT.1 1.1. INTRODUCTION.1 1.2. A SHORT HISTORICAL PERSPECTIVE.4 1.3. OBJECTIVE.5 1.4. BASIC CONSIDERATIONS IN MODEL CONSTRUCTION.6 1.5 PERSPECTIVE ON MODEL BUILDING.10 1.6 COMPONENT PROCESS MODELING.11 1.7. CLASSIFICATION OF WATERSHED MODELS.16 1.8. WATERSHED HYDROLOGY MODELS.17 1.9. COMPARISON OF WATERSHED HYDROLOGY MODELS. 18 1.10. FUTURE OUTLOOK.19 CONCLUSIONS.20 REFERENCES.21 SECTION 1: PARAMETER ESTIMATION.23 2. EMERGING PARADIGMS IN THE CALIBRATION OF HYDROLOGIC MODELS ~ L. A. Bastidas, H. V. Gupta and S. Sorooshian.25 ABSTRACT.25 2.1. INTRODUCTION.26 2.2. TOWARD A MULTI-OBJECTIVE VIEW.28 2.3. MULTI-CRITERIA PARAMETER ESTIMATION METHODOLOGY.29 2.4. MULTI-OBJECTIVE OPTIMIZATION.35 xv 2.5. APPLICATION OF THE MULTI-CRITERIA CALI- BRATION FRAMEWORK TO A HYDROLOGIC MODEL.38 2.6. APPLICATION OF THE MULTI-CRITERIA FRAME- WORK TO A LAND SURFACE SCHEME.47 2.7. APPLICATION OF THE MULTI-CRITERIA FRAMEWORK TO A HYDROCHEMICAL MODEL.53 SUMMARY AND CONCLUSIONS.55 ACKNOWLEDGEMENTS.56 REFERENCES.57 3. ANN MODELING IN WATERSHED HYDROLOGY ~ C. S. P. Ojha and V. P. Singh.67 ABSTRACT.67 3.1. INTRODUCTION.67 3.2. TRAINING OF ANN.70 3.3. ANALYSIS OF RAINFALL-RUNOFF DATA.74 3.4. ANALYSIS OF RUNOFF-SEDIMENT TRANSPORT DATA.80 3.5. ANALYSIS OF RIVER BED PATTERNS.83 3.6. REPRESENTATION OF INPUT-OUTPUT QUALITY.84 SUMMARY.85 REFERENCES.86 NOTATIONS.87 SECTION 2: MODEL TESTING.89 4. A TOOLKIT FOR THE DEVELOPMENT AND APPLICATION OF PARSIMONIOUS HYDROLOGICAL MODELS ~ T. Wagener, M. J. Lees and H. S. Wheater.91 ABSTRACT.91 4.1. INTRODUCTION.91 4.2. PARSIMONIOUS RAINFALL-RUNOFF MODELING.93 4.3. ANALYTICAL MODELING FRAMEWORK.95 4.4. RAINFALL-RUNOFF MODELING COMPONENT.96 4.5. MONTE-CARLO ANALYSIS TOOLBOX.115 4.6. APPLICATION EXAMPLES.123 CONCLUSIONS.131 ACKNOWLEDGEMENTS.132 REFERENCES.J32 XVI 5. TESTING HYDROLOGIC MODELS: FORTIFICATION OR FALSIFICATION ~ G. Kuczera and S. W. Franks.141 ABSTRACT.141 5.1. INTRODUCTION.141 5.2. KEY CONCEPTS.142 5.3. A PROBABILISTIC FRAMEWORK FOR MODEL TESTING.156 5.4. MORE POWERFUL FALSIFICATION USING DATA AUGMENTATION.167 CONCLUSIONS.181 REFERENCES.181 SECTION 3: REGIONAL AND GLOBAL HYDROLOGY MODELS.187 6. A GLOBAL HYDROLOGIC MODEL ~ M. L. Kavva.s and M. Anderson. 1X9 ABSTRACT. 189 6.1. INTRODUCTION.189 6.2. THE ATMOSPHERIC SYSTEM.190 6.3. THE OCEANIC SYSTEM.196 6.4 THE HYDROLOGIC SYSTEM.198 6.5. CRYOGENIC SYSTEM.201 6.6. GLOBAL HYDROLOGIC MODEL EQUATIONS.202 6.7. MODEL STRUCTURE AND PARAMETERIZATION.206 6.8. CURRENT MODEL STATUS AND FUTURE DEVELOPMENT.218 6.9. APPLICATION.219 CONCLUSIONS.233 REFERENCES.234 7. REGIONAL-SCALE HYDROCLIMATE MODEL - J. Yoshitani, M. L. Kawas andZ.-Q. Chen.237 ABSTRACT.237 7.1. INCORPORATING DIFFERENT SCALE PROCESSES.237 7.2. EQUATIONS FOR ATMOSPHERIC DYNAMICS.241 7.3. BOUNDARY LAYER PARAMETERIZATION.246 7.4. HEAT TRANSFER PROCESS ON LAND SURFACE.251 7.5. LAND SURFACE MOISTURE FLOW MODEL.253 7.6. RAINFALL PARAMETERIZATION.274 7.7. DEVELOPMENT OF JAPAN MODEL AND APPLICATION.274 XVII REFERENCES.281 8. REGIONAL SIMULATION OF THE WATER BUDGET AND RIVERFLOWS WITH THE ISBA-MODCOU COUPLED MODEL: APPLICATION TO THE ADOUR AND RHONE BASINS ~ E. Ledoux, P. Etchevers, C. Golaz, F. Habets, J. Noilhan and S. Voirin.283 ABSTRACT.283 8.1. INTRODUCTION.284 8.2. THE MODELS.285 8.3. IMPLEMENTATION OF ISBA-MODCOU.292 8.4. RESULTS OF ISBA-MODCOU SIMULATIONS ON THE ADOUR AND RHONE BASINS.298 8.5. IMPACT OF THE HORIZONTAL RESOLUTION.310 CONCLUSIONS.313 ACKNOWLEDGEMENTS.314 REFERENCES.315 SECTION 4: DISTRIBUTED MODELS.319 9. THE HYDROLOGICAL MODELING SYSTEM ARC/EGMO ~?. Becker, B. Klöcking, W. Lahmer, and B. Pfützner.321 ABSTRACT.321 9.1. INTRODUCTION.322 9.2. LAND SURFACE HETEROGENEITY AND ITS ASSESSMENT.322 9.3. STRUCTURAL DESIGN OF ARC/EGMO.324 9.4. SPATIAL DISAGGREGATION AND ASPECTS OF PARAMETER ESTIMATION.326 9.5. MODEL COMPONENTS FOR VERTICAL PROCESSES.335 9.6. SELECTED ASPECTS OF DATA PROCESSING FOR ARC/EGMO APPLICATIONS.356 9.7. CASE STUDY 1: THE STEPENITZ BASIN.361 9.8. CASE STUDY 2: THE SAALE BASIN.373 CONCLUSION AND OUTLOOK.380 REFERENCES.381 10. A STORM SIMULATION IN LARGE WATERSHEDS WITH A HYDROLOGICAL MODEL SYSTEM AND A MESOSCALE METEOROLOGICAL MODEL ~ Z. Yu.385 ABSTRACT.385 XV1I1 10.1. INTRODUCTION.386 10.2. HYDROLOGIC MODEL SYSTEM (HMS).387 10.3. MESOSCALE METEOROLOGICAL MODEL.398 10.4. SUBGRID SCALE SPATIAL VARIABILITY.400 10.5. STUDY SITE.403 10.6. DATA PREPROCESSING.404 10.7. MODEL CALIBRATION.412 10.8. STORM SIMULATION.416 10.9. HYDROLOGIC SIMULATION WITH OBSERVED PRECIPITATION.417 10.10. HYDROLOGIC SIMULATION WITH MM5-SIMU- LATED PRECIPITATION.422 SUMMARY.424 ACKNOWLEDGMENTS.425 REFERENCES.426 11. NUMERICAL MODEL OF RIVER FLOW FORMATION FROM SMALL TO LARGE SCALE RIVER BASINS ~ X. Ma and Y. Fnkushima.433 ABSTRACT.433 11.1. INTRODUCTION.433 11.2. ONE-DIMENSION MODEL FOR ATMOSPHERE-LAND SURFACE INTERACTION.434 11.3. RUNOFF FORMATION FOR SMALL WATERSHED.449 11.4. HYDROLOGICAL MODELING FOR MACRO-SCALE WATERSHED.456 SUMMARY.467 REFERENCES.468 12. THE TOPKAPI MODEL ~ E. Todini andL. Ciampica.471 ABSTRACT.471 12.1. INTRODUCTION.471 12.2. THE DISTRIBUTED TOPKAPI APPROACH.474 12.3. THE LUMPED TOPKAPI APPROACH.487 12.4. EXAMPLE OF APPLICATION.495 CONCLUSIONS AND PERSPECTIVES.502 REFERENCES.504 13. CEQUEAU HYDROLOGICAL MODEL ~ G. Morin.507 ABSTRACT.507 13.1. INTRODUCTION.508 13.2. GENERAL STRUCTURE OF CEQUEAU.509 xix 13.3. SCHEMATIC REPRESENTATION OF THE WATERSHED.516 13.4. PREPARATION OF METEOROLOGICAL AND HYDROMETRIC DATA.522 13.5. CEQUEAU QUANTITY SIMULATION.525 13.6. EXAMPLE OF APPLICATION.562 REFERENCES.575 SECTION 5: CONCEPTUAL MODELS.577 14. LASCAM: LARGE SCALE CATCHMENT MODEL ~ M. Sivapalan, N. R. Viney, and C. Zammit.579 ABSTRACT.579 14.1. INTRODUCTION.579 14.2. LASCAM MODELING PHILOSOPHY.580 14.3. ORGANIZATIONAL STRUCTURE OF THE LARGE CATCHMENT MODEL.583 14.4. DESCRIPTION OF THE SMALL CATCHMENT MODEL (BUILDING BLOCK MODEL).586 14.5. DATA REQUIREMENTS.600 14.6. PARAMETER ESTIMATION.600 14.7. EXAMPLES OF APPLICATIONS.601 14.8. LIMITATIONS OF LASCAM.622 14.9. PLANNED FUTURE IMPROVEMENTS TO LASCAM.623 ACKNOWLEDGEMENTS.623 APPENDIX 1 : SYMBOLS AND VARIABLE NAMES.624 APPENDIX 2: LASCAM MODEL EQUATIONS.631 APPENDIX 3: TYPICAL LASCAM PARAMETER VALUES.640 REFERENCES.643 15. WATFLOOD/SPL9: HYDROLOGICAL MODEL FLOOD FORECASTING SYSTEM ~ N. Kouwen and S. F. Mousavi.649 ABSTRACT.649 15.1. HYDROLOGICAL MODEL.650 15.2. APPLICATION.676 SUMMARY.681 ACKNOWLEDGEMENTS.681 REFERENCES.681 16. THE ARNO MODEL ~ E. Todini.687 ABSTRACT.687 xx 16.1. INTRODUCTION.687 16.2. DESCRIPTION OF THE ARNO MODEL.688 16.3. THE ARNO MODEL PARAMETERS.707 16.4. APPLICATION OF THE ARNO MODEL.709 CONCLUSIONS.713 REFERENCES.714 17. LARGE BASIN RUNOFF MODEL ~ T. E. Croley II.717 ABSTRACT.717 17.1. INTRODUCTION.718 17.2. TANK CASCADE MODELS.719 17.3. DESCRIPTION OF RUNOFF MODEL.721 17.4. APPLICATION.737 17.5. EXAMPLE APPLICATION.740 17.6. CALIBRATION.746 17.7. CALIBRATION PROBLEMS.758 17.8. MODEL VALIDITY AND APPLICABILITY.761 SUMMARY.763 ACKNOWLEDGMENT.764 REFERENCES.764 NOTATION.768 18. MODELING RUNOFF FROM HYDROLOGICALLY SIMILAR AREAS ~ H. Koivusalo, T. Kokkonen and T. Karvonen.771 ABSTRACT.771 18.1. INTRODUCTION.772 18.2. GENERAL DESCRIPTION OF THE MODELING SYSTEM.774 18.3. SUBMODEL DESCRIPTIONS.777 18.4. CASE STUDIES.790 CONCLUSIONS.806 ACKNOWLEDGEMENTS.807 REFERENCES.807 19. MATHEMATICAL MODEL OF RAINFALL-RUNOFF TRANSFORMATION-WISTOO ~ M. Ozga-Zielinska, W. Gadek, K. Ksiazynski, E. Nachlik, and R. Szczepanek .811 ABSTRACT.811 19.1. INTRODUCTION.812 19.2. DESCRIPTION OF PARTIAL PROCESSES.816 XXI 19.3. STRUCTURE OF COMPUTER PROGRAM FOR WISTOO MODEL.840 19.4. RANGE OF MODEL APPLICATION.848 19.5. EXAMPLE OF WISTOO MODEL APPLICATION FOR LOSOSINA RIVER WATERSHED.849 19.6. A FEW WORDS ABOUT THE MODEL.857 SYMBOLS.857 REFERENCES.860 20. THE CLS MODEL ~ E. Todini.861 ABSTRACT.861 20.1. INTRODUCTION.861 20.2. THE SOIL MOISTURE THRESHOLD EFFECT IN THE RAINFALL-RUNOFF.865 20.3. THE CONSTRAINED ESTIMATION TECHNIQUE.871 20.4. EXAMPLES OF APPLICATION.878 CONCLUSIONS.883 REFERENCES.884 SUBJECT INDEX.887 xxii
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dewey-sort	3551.48 11 45118
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discipline	Geologie / Paläontologie Geographie
discipline_str_mv	Geologie / Paläontologie Geographie
format	Book
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id	DE-604.BV035183677
illustrated	Illustrated
index_date	2024-07-02T22:58:55Z
indexdate	2024-07-09T21:26:55Z
institution	BVB
isbn	1887201343
language	English
lccn	2001098547
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016990393
oclc_num	50107488
open_access_boolean
owner	DE-703
owner_facet	DE-703
physical	XXII, 891 S. graph. Darst., Kt. 1 CD-ROM (12 cm)
publishDate	2002
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publisher	Water Resources Publ.
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spelling	Mathematical models of large watershed hydrology ed. by Vijay P. Singh ... MathMod Highlands Ranch, Colo. Water Resources Publ. 2002 XXII, 891 S. graph. Darst., Kt. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier CD-ROM-Beil. u.d.T.: MathMod Bacia hidrográfica larpcal Bassins hydrographiques - Modèles mathématiques Modelos matemáticos larpcal Modèles hydrologiques aWatersheds xmathematical models aHydrologic models Singh, Vijay P. 1946- Sonstige (DE-588)104218541 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990393&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mathematical models of large watershed hydrology Bacia hidrográfica larpcal Bassins hydrographiques - Modèles mathématiques Modelos matemáticos larpcal Modèles hydrologiques aWatersheds xmathematical models aHydrologic models
title	Mathematical models of large watershed hydrology
title_alt	MathMod
title_auth	Mathematical models of large watershed hydrology
title_exact_search	Mathematical models of large watershed hydrology
title_exact_search_txtP	Mathematical models of large watershed hydrology
title_full	Mathematical models of large watershed hydrology ed. by Vijay P. Singh ...
title_fullStr	Mathematical models of large watershed hydrology ed. by Vijay P. Singh ...
title_full_unstemmed	Mathematical models of large watershed hydrology ed. by Vijay P. Singh ...
title_short	Mathematical models of large watershed hydrology
title_sort	mathematical models of large watershed hydrology
topic	Bacia hidrográfica larpcal Bassins hydrographiques - Modèles mathématiques Modelos matemáticos larpcal Modèles hydrologiques aWatersheds xmathematical models aHydrologic models
topic_facet	Bacia hidrográfica Bassins hydrographiques - Modèles mathématiques Modelos matemáticos Modèles hydrologiques aWatersheds xmathematical models aHydrologic models
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016990393&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT singhvijayp mathematicalmodelsoflargewatershedhydrology AT singhvijayp mathmod

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