جزییات کتاب
Introductory guide to hydraulics, hydrology, and stormwater management design Stormwater Management for Land Development is a unique, much-needed book on developing stormwater management plans that only requires readers to understand algebra, trigonometry, and geometry. Beginning with the fundamentals, it walks readers through the ABCs of fluid mechanics and hydrology and presents practical methods and designs to control stormwater. Useful to the growing group of professional surveyors and engineers who may not have taken fluid mechanics or hydrology courses, Stormwater Management for Land Development features: * Sections on elementary fluid mechanics including statics, dynamics, and open channel flow * Sections on practical hydrology including design rainfall, travel time, and runoff methods * Material on NRCS/SCS unit hydrograph and TR-55 tabular hydrograph procedures, with reference to the latest WinTR-55 variant * Design methods for stormwater conveyance, including storm sewer, culvert, and open channel designs * A detailed procedure for sizing and designing a multiple stage outlet structure for multiple event detention requirements * More than seventy-five example problems illustrating fluid flow and hydrology calculation methods * Review problems at the end of most chapters With more than 150 helpful illustrations, Stormwater Management for Land Development is the most comprehensive, basic guide to hydraulics, hydrology, and stormwater management design methods for quantity control.Content: Chapter 1 Introduction to Stormwater Management (pages 1–10): Chapter 2 Fluid Properties and Basic Statics (pages 11–33): Chapter 3 Fluid Flow (pages 34–65): Chapter 4 Open Channel Flow (pages 66–97): Chapter 5 Hydrology, Watersheds, and Soils (pages 98–119): Chapter 6 Rainfall (pages 120–144): Chapter 7 Travel Time (pages 145–178): Chapter 8 Runoff Depth and Peak Flow (pages 179–214): Chapter 9 Hydrographs (pages 215–256): Chapter 10 Routing Methods (pages 257–283): Chapter 11 Drainage Conveyance and Control (pages 284–325): Chapter 12 Multiple?Event Detention Design (pages 326–357):