The Leading Guide To Site Design And Engineering Revised And Updated
Site Engineering for Landscape Architects is the top choice for site engineering, planning, and construction courses as well as for practitioners in the field, with easy-to-understand coverage of the principles and techniques of basic site engineering for grading, drainage, earthwork, and road alignment. The Sixth Edition has been revised to address the latest developments in landscape architecture while retaining an accessible approach to complex concepts.
The book offers an introduction to landform and the language of its design, and explores the site engineering concepts essential to practicing landscape architecture todayfrom interpreting landform and contour lines, to designing horizontal and vertical road alignments, to construction sequencing, to designing and sizing storm water management systems. Integrating design with construction and implementation processes, the authors enable readers to gain a progressive understanding of the material.
This edition contains completely revised information on storm water management and green infrastructure, as well as many new and updated case studies. It also includes updated coverage of storm water management systems design, runoff calculations, and natural resource conservation. Graphics throughout the book have been revised to bring a consistent, clean approach to the illustrations.
Perfect for use as a study guide for the most difficult section of the Landscape Architect Registration Exam (LARE) or as a handy professional reference, Site Engineering for Landscape Architects, Sixth Edition gives readers a strong foundation in site development that is environmentally sensitive and intellectually stimulating.
By:
Steven Strom (Rutgers--The State University of New Jersey),
Kurt Nathan ((ret.) Emeritus,
Rutgers--The State University of New Jersey and Formerly Consulting Engineer,
Conservation Engineering,
P.A.),
Jake Woland (State Conservation Engineer,
New Jersey,
NRCS)
Imprint: John Wiley & Sons Inc
Country of Publication: United States
Edition: 6th edition
Dimensions:
Height: 234mm,
Width: 208mm,
Spine: 28mm
Weight: 748g
ISBN: 9781118090862
ISBN 10: 1118090861
Pages: 368
Publication Date: 15 March 2013
Audience:
Professional and scholarly
,
Undergraduate
Format: Hardback
Publisher's Status: Active
Preface xi Acknowledgments xiii 1 Site Engineering IS Design 1 Why Is an Understanding of This Material Important? 1 The Design Language of Site Engineering 1 Summary 17 2 Grading Constraints 19 Environmental Constraints 19 Functional Constraints 23 Summary of Critical Constraints 32 3 Contours and Form 33 Definition 33 Constructing a Section 37 Characteristics of Contour Lines 37 Contour Signatures and Landform 38 Case Studies 53 4 Interpolation and Slope 63 Topographic Data 63 Interpolation 64 Calculating Slope 68 Slope s Expressed as Ratios and Degrees 71 Slope Analysis 71 5 Grading of Simple Design Elements 77 Grading of Linear Elements 77 Grading by Proportion 87 Visualizing Topography from Contour Lines 90 Grading of Planar Areas 90 Swales to Divert Runoff 97 Area Grading Process 98 6 Grading Process 101 Introduction 101 Applying the Grading Process 103 Grading Plan Graphics 108 7 Soils in Construction 113 Role of Soil in Site Planning 113 Implications of Soils for Site Construction 113 Geotechnical Exploration and Soil Investigation 115 Soil Characteristics 117 Soil Classification 118 Engineering Properties of Soils 120 Structural Soils 121 Structured Soil Volumes 122 Lightweight Soils 123 Geotextiles 123 Construction Sequence for Grading 124 Placing and Compacting Soils 126 Earthwork Specifications 128 8 Earthwork 129 Definitions 129 Grading Operations 130 Computation of Cut-and-Fill Volumes 131 Case Study 141 9 Storm Water Management 147 Storm Runoff 147 Hydrologic Cycle 148 Nature of the Problem 148 Management Philosophy 150 System Functions 151 Storm Water Management Strategies 153 Beyond Storm Water Management 155 Summary 156 10 Storm Water Management System Components 157 Traditional Storm Water Management System Components 157 Principles and Techniques 160 Infiltration Systems 161 Detention Systems 164 Rainwater Harvesting Systems 168 Constructed Treatment Wetlands 170 Green Roofs 170 Bioretention Systems 174 Landscape Practices 176 Future Developments: Net Zero Water and Integrated Water Management 176 Case Studies 178 Summary 190 11 Soil Erosion and Sediment Control 191 Introduction 191 Regulatory Requirements 191 Soil Erosion Factors 192 Erosion and Sedimentation Processes 193 Erosion and Sediment Control Principles 193 Development of an Erosion and Sediment Control Plan 195 Runoff Considerations 195 Construction Sequencing 196 Erosion Control Measures 196 Sediment Control Measures 202 Case Studies 202 Summary 205 12 Determining Rates and Volumes of Storm Runoff : Th e Rational and Modified Rational Methods 207 Introduction 207 Rational Method 208 Modified Rational Method 218 Volumes of Runoff, Storage, and Release 222 Required Storage for Detention or Retention Ponds by the Modified Rational Method 224 Summary 226 13 Natural Resources Conservation Service Methods of Estimating Runoff Rates, Volumes, and Required Detention Storage 227 Introduction 227 Rainfall 229 Procedures of TR55 229 Volume for Detention Storage 242 Summary 245 14 Designing and Sizing Storm Water Management Systems 247 Management Systems 247 Design and Layout of Drainage Systems 249 Designing and Sizing Grassed Swales (Waterways) 251 Designing and Sizing Pipe Systems 262 Designing and Sizing Subsurface Drainage 270 Designing and Sizing Rainwater Harvesting Systems 275 Designing and Sizing Integrated Water Management Systems 277 Summary 277 15 Site Layout and Dimensioning 279 Hierarchy of Dimensioning 280 Dimensioning Guidelines 281 Horizontal Layout Methods 283 Layout Plans 288 16 Horizontal Road Alignment 291 Types of Horizontal Curves 291 Circular Curve Elements 293 Circular Curve Formulas 293 Degree of Curve 295 Stationing 297 Horizontal Sight Distance 300 Construction Drawing Graphics 300 Horizontal Alignment Procedures 300 Superelevation 301 Case Study 305 17 Vertical Road Alignment 311 Vertical Curve Formula 312 Equal Tangent Curves 313 Calculating the Locations of High and Low Points 315 Unequal Tangent Curves 318 Construction Drawing Graphics 321 Vertical Sight Distances 322 Road Alignment Procedure 322 Appendix I: Table of Metric Equivalents 327 Appendix II: Metric Drawing Scales 329 Glossary 331 Bibliography 337 Index 341
The late STEVEN STROM, FASLA, was Associate Professor in the Department of Landscape Architecture at Rutgers, The State University of New Jersey. KURT NATHAN, MS, PE, is Professor Emeritus at Rutgers, The State University of New Jersey, and was formerly a consulting engineer for Conservation Engineering. JAKE WOLAND, ASLA, is a landscape architect with HEWITT in Seattle, Washington. He previously taught at Rutgers, The State University of New Jersey.