000 | 01715nam a22001457a 4500 | ||
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008 | 220811b |||||||| |||| 00| 0 eng d | ||
020 | _a0-13-249384-5 | ||
082 |
_223 _a551.48 _bSIN |
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100 | _aSingh Vijay P | ||
245 |
_aElementary Hydrology _cVijay P. Singh _hEnglish |
||
260 |
_aNew Jersey _bPrentice Hall _c1992 |
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300 |
_av-973 p. ; _bHard bound _c18*24 cm |
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505 | _aI. PRELIMINARIES. 1. Introduction. 2. Environmental and Water Resources Problems. 3. Types of Watersheds. 4. Parameter Estimation. II. HYDROLOGIC INPUTS. 5. Drainage Basin Characteristics. 6. Weather and Precipitation. 7. Measurement and Analysis of Precipitation Data. III. SUBSURFACE FLOW. 8. Infiltration and Soil Moisture. 9. Ground Water and Baseflow. IV. ABOVE-SURFACE FLOW AND HYDROLOGIC ABSTRACTIONS. 10. Evaporation and Transpiration. 11. Interception and Depression Storage. V. STREAMFLOW MEASUREMENT AND HYDROGRAPH ANALYSIS. 12. Streamflow Measurement. 13. Streamflow Hydrograph. VI. PRECIPITATION-RUNOFF RELATION. 14. Estimation of Surface Runoff Volume. 15. Unit Hydrograph Method. 16. Empirical Synthesis of Unit Hydrograph. 17. Conceptual Models of Unit Hydrograph. 18. Estimation of Peak Discharge. 19. Snow and Snowmelt Runoff. VII. FLOW ROUTING. 20. Reservoir Flow Routing. 21. Channel Flow Routing. VIII. WATERSHED SIMULATION. 22. Erosion and Sediment Yield. 23. Streamflow Simulation. IX. HYDROLOGIC DESIGN. 24. Statistical Preliminaries. 25. Frequency Analysis. 26. Design Storm and Design Flood. Appendix: A. Conversion from One System of Units to Another. Appendix B. Analytical Solutions of the Muskingum Method. Appendix C. Least Squares Method for Estimation of the Muskingum Parameters. | ||
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