Seepage, Drainage, and Flow Nets
Seepage, Drainage, and Flow Nets

Author: Harry R. Cedergren

Publisher: John Wiley & Sons

Published: 1997-01-25

Total Pages: 490

ISBN-13: 9780471180531

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The definitive practical guide to understanding and solving seepageand drainage problems Now in its third edition, this unique resource offers simplemethods for analyzing and designing seepage and groundwater controlsystems for all major types of civil engineering works. Completewith solid coverage of seepage principles and flow netconstruction, this book is an invaluable aid to engineeringprofessionals and students in mastering this vital subject. Seepage, Drainage, and Flow Nets, Third Edition, features: * Clear explanations of Darcy's law, permeability, and other coreconcepts * Seepage analyses and drainage designs for earth dams, levees,foundations, earth slopes, roads, airfields, streets, parking lots,and more * Information on contemporary topics, including "wick" drains,"fin" drains, and the protection of groundwaters from contamination * An assessment of computer solutions to seepage and drainageproblems * Over 100 examples of flow nets, ranging from the simple to thecomplex --accompanied by step-by-step instructions * Useful chapter references to facilitate further study.

The Literature of Soil Science
The Literature of Soil Science

Author: Peter McDonald

Publisher: Cornell University Press

Published: 1994

Total Pages: 476

ISBN-13: 9780801429217

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A collection of 14 discussions of the past and present literature about soil science. The topics include a historical survey, bibliometrics, introduction into developing countries, societies and their publishing influence, information systems, core monographs, primary journals, maps, and other aspec

Management of Combined Sewer Overflows
Management of Combined Sewer Overflows

Author: Richard Field

Publisher: CRC Press

Published: 2003-11-24

Total Pages: 272

ISBN-13: 9781566706360

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There are approximately 10,000 combined sewer overflow (CSO) locations in the United States. During peak storm events they can release about 1.2 trillion gallons of waste and up to 95% of a municipality's raw sewage into surface waters. Although many cities have initiated programs, the CSO problem remains largely unsolved and continues to be a major area of responsibility for environmental professionals, engineers, and public works officials. Sponsored by the EPA, written by internationally recognized experts, and subjected to extensive peer review, Management of Combined Sewer Overflows provides the latest information on the subject from analysis of contaminants to long-term CSO control plans. Coverage includes: CSO analysis and characterization of contaminants Analysis and characterization of receiving-water impacts Methods of control such as storage, treatment, disinfection, and systems optimization Regulations and compliance Systems retrofits and upgrades Long-term CSO control plans Research and design needs Abatement or prevention of pollution stormwater runoff and CSOs is one of the most challenging areas in the environmental engineering field. The facts of life - from an engineering standpoint - are difficult to face in terms of design and cost. And operational problems can be just as foreboding. A reference for anyone combating urban wet-weather-induced water pollution, Management of Combined Sewer Overflows covers the gamut of engineering requirements, from pollution problem assessment and associated tools, to management and control planning and design.

Seepage in Soils
Seepage in Soils

Author: Lakshmi N. Reddi

Publisher: John Wiley & Sons

Published: 2003-05-21

Total Pages: 422

ISBN-13: 9780471356165

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Up-to-date coverage of fundamental seepage principles, closed-form solutions, and applications Seepage in Soils combines a broad range of applications with rigorous quantitative skills to give insight into the fundamental principles and mathematical solutions of seepage. A wealth of closed-form analytical solutions are provided to solve a variety of problems, minimizing the use of computer software and numerical models. Completely up to date with coverage of new developments in separators, filters, and geosynthetics, this textbook includes exercises in seepage quantification, seepage forces, and dewatering. Complete coverage is useful in all subdivisions of civil engineering. Material is divided into three modules: * Principles and mathematical solutions * Filters and drainage layers * Applications Only a nominal background in mathematics and soil mechanics is required for Seepage in Soils to serve as an invaluable resource for civil engineering students across many subdisciplines. In addition, it serves as a useful reference for geotechnical, environmental, and structural engineers, hydrologists, geologists, agronomists, and soil scientists.

Groundwater and Seepage
Groundwater and Seepage

Author: Milton E. Harr

Publisher: Courier Corporation

Published: 2012-12-04

Total Pages: 338

ISBN-13: 0486145190

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The movement of groundwater is a basic part of soil mechanics. It is an important part of almost every area of civil engineering, agronomy, geology, irrigation, and reclamation. Moreover, the logical structure of its theory appeals to engineering scientists and applied mathematicians. This book aims primarily at providing the engineer with an organized and analytical approach to the solutions of seepage problems and an understanding of the design and analysis of earth structures that impound water. It can be used for advanced courses in civil, hydraulic, agricultural, and foundation engineering, and will prove useful to consulting engineers — or any public or private agency responsible for building or maintaining water storage or control systems. Among the special features of this book are its coverage of previously unavailable Russian work in the field, an extensive appendix of concepts in advanced engineering mathematics needed to deal with physical flow systems, and numerous completely worked-out and solved examples coupled with over 200 problems of varying difficulty.

Craig's Soil Mechanics
Craig's Soil Mechanics

Author: Jonathan Knappett

Publisher: CRC Press

Published: 2019-10-11

Total Pages: 640

ISBN-13: 135105273X

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Craig’s Soil Mechanics continues to evolve and remain the definitive text for civil engineering students worldwide. It covers fundamental soil mechanics and its application in applied geotechnical engineering from A to Z and at the right depth for an undergraduate civil engineer, with sufficient extension material for supporting MSc level courses, and with practical examples and digital tools to make it a useful reference work for practising engineers. This new edition now includes: Restructured chapters on foundations and earthworks, the latter including new material on working platforms and collapse of underground cavities (sinkhole formation). New mobilised-stress-based deformation methods that can straightforwardly be used with both linear and non-linear soil stiffness models and field measurements of shear wave velocity, for serviceability limit state design. Extended sets of correlations for making sensible first estimates of soil parameters, adding deformation-based parameters for broader coverage than the Eighth Edition. Extended section on robust statistical selection of characteristic soil parameters. Greater use of consolidation theory throughout in determining whether actions, processes and laboratory/in-situ tests are drained or undrained. Extended chapter on in-situ testing, adding the Flat Dilatometer Test (DMT), and interpretation of consolidation parameters from CPTU and DMT testing. An updated section on pile load testing. Additional worked examples and end-of-chapter problems covering new material, with fully worked solutions for lecturers. The electronic resources on the book’s companion website are developed further, with the addition of two new spreadsheet numerical analysis tools and improvement of existing tools from the Eighth Edition. Using these, readers can take real soil test data, interpret its mechanical properties and apply these to a range of common geotechnical design problems at ultimate and serviceability limiting states.