Design Hydrology and Sedimentology for Small CatchmentsThe Clean Water Act, with its emphasis on storm water and sediment control in urban areas, has created a compelling need for information in small-catchment hydrology. Design Hydrology and Sedimentology for Small Catchments provides the basic information and techniques required for understanding and implementing design systems to control runoff, erosion, and sedimentation. It will be especially useful to those involved in urban and industrial planning anddevelopment, surface mining activities, storm water management, sediment control, and environmental management.This class-tested text, which presents many solved problems throughout as well as solutions at the end of each chapter, is suitable for undergraduate, graduate, and continuing education courses. In addition, practicing professionals will find it a valuable reference.Anderson/Woessner: APPLIED GROUNDWATER MODELING (1992)Shuirman/Slosson: FORENSIC ENGINEERING (1992)de Marsily: QUANTITATIVE HYDROGEOLOGY (1986)Selley: APPLIED SEDIMENTOLOGY, THIRD EDITION (1988)Huyakorn: COMPUTATIONAL METHODS IN SUBSURFACE FLOW (1986)Pinder: FINITE ELEMENT MODELING IN SURFACE AND SUBSURFACE HYDROLOGY (1977) Key Features* Covers major new improvements and state-of-the-art technologies in sediment control technology* Provides in-depth information on estimating the impact of land-use changes on runoff and flood flows, as well as on estimating erosion and sediment yield from small catchments* Presents superior coverage on design of flood and sediment detention ponds and design of runoff and sediment control measures |
Contents
| xiii | |
| 301 | |
| 305 | |
| 337 | |
Chapter 4 Open Channel Hydraulics | 404 |
Chapter 5 Hydraulics of Structures | 444 |
Chapter 6 Channel Flow Routing and Reservoir Hydraulios | 482 |
Chapter 7 Sediment Properties and Transport | 204 |
Chapter 9 Sediment Control Structures | 311 |
Fluvial Channel Analysis and Design | 391 |
Chapter 11 Ground Water | 422 |
Chapter 12 Monitoring Hydrologic Systems | 442 |
Chapter 13 Hydrologic Modeling | 455 |
| 475 | |
General Appendix | 575 |
| 581 | |
Other editions - View all
Design Hydrology and Sedimentology for Small Catchments C. T. Haan,B. J. Barfield,J. C. Hayes Limited preview - 1994 |
Design Hydrology and Sedimentology for Small Catchments C. T. Haan,B. J. Barfield,J. C. Hayes No preview available - 1994 |
Common terms and phrases
Agricultural analysis aquifer assumed average Barfield basin bedload calculated catchment clay coefficient computed concentration culvert defined deposition detention determined developed diameter discharge distribution equation eroded erosion estimate Example Problem factor Figure filter flocculation flood flow rate fraction frequency given ground water head loss hydraulic conductivity impact inflow inlet interrill layer Manning's method nomograph occurs outflow outlet parameters particle peak flow pipe plot pond predict procedure ratio reactor relationship reservoir return period rill riprap roughness routing runoff hydrograph runoff volume RUSLE sediment load sediment trapping sediment yield settling velocity shear shear stress shown in Fig slope length ſº Soil Conservation Service Solution spillway stream subfactor surface surface runoff Table tion Toble trapping efficiency U.S. Department unit hydrograph University of Kentucky values vegetation watershed weir width zone