000			02118nam a2200241#a 4500
001			vtls000020905
008			230822s2000 xx 000 0 eng d
020			_a0201350912
040			_aJPS
090	0	0	_aHYDR 627 CHI
100			_aChin, David A _eauthor
245		0	_aWater-Resources Engineering
260			_aNew Jersey: Prentice Hall upper Saddle River, _c2000
300			_a750p,illust,26cm
505			_a1.INTRODUCTION 1.1Water Resources Engineering 1.2 The Hydrologic Cycle 1.3Design of Water-Resources System 1.4About This Book 2.FUNDAMENTALS OF FLUID MECHANICS: 2.1Introduction 2.2physical Properties of Water 2.3Fluid Statics 2.4Fluid Kinematics 2.5Fluid dynamics 2.6Dimensional Analysis and Similitude 3.FLOW IN LOSED CONDUITS 3.1Introduction 3.2Single Pipelines 3.3Multiple Pipelines 3.4Pumps 3.5Design of Water Distribution Systems 4.FLOW IN OPEN CHANNELS: 4.1Introduction 4.2Basic Principles 4.3Water Surface Profiles 4.4Hydraulic Structures 4.5Design of Open Channels 4.6Design of Sanitary-Sewer Systems 4.7Computer Models 5.PROBABILITY AND STATISTICS IN WATER-RESOURCES ENGINEERING 5.1Introduction 5.2Probability Distributions 5.3Anlysis of Hydrologic Data 5.4Floods 6. SURFACE-WATER HYDROLOGY 6.1Introduction 6.2Rainfall 6.3Rainfall Abstractions 6.4Runoff Models 6.5Routing Models 6.6Water Quality Models 6.7Design of Stormwater Management Systems 6.8Evapotranpiration 7.GROUND-WATER HYDROLOGY: 7.1Introduction 7.2Basic Equations of Ground-water Flow 7.3Solutions of the Ground-Water Flow Equation 7.4Principle of Superposition 7.5Method of Images 7.6Saltwater Instrusion 7.7Ground-water Flow in the Unsaturated Zone7.8Engineered System 7.9Computer Models 8.HYDROLOGIC FATE AND TRANSPORT PROCESSES 8.1Introduction 8.2Water Quality 8.3Fate and Transport Processes 8.5Lakes 8.6Ocean Discharges 8.7Groundwater 8.8Computer models
546			_aEng
650	1	0	_aHydraulics
650	2	0	_aHydraulic engineering
650	2	0	_aHydrology
942			_cMONO
990			_a2000
999			_aVIRTUA _aVTLSSORT0080*0200*0900*1000*2450*2600*3000*5050*5460*6500*6501*6502*9020*9050*9900*9970*9980*9991 _c13961 _d13961
003			JPS