Hydrology in Practice

Hydrology in Practice

 

The concept of the hydrological cycle forms the basis for the engineering hydrologist’s
understanding of the sources of water at or under the Earth’s surface and its consequent
movement by various pathways back to the principal storage in the oceans. Two of the
greatest problems for the hydrologist are quantifying the amount of water in the different
phases in the cycle and evaluating the rate of transfer of water from one phase to another
within the cycle.
Thus measurement within the components of the cycle is a major
function; this has not been subject to coordinated planning until the mid 20th century.
Most hydrological variables such as rainfall, streamflow or groundwater have been
measured for many years by separate official bodies, private organizations or even
individual amateurs, but there has been very little logical design in the pattern of
measurements. The installation of gauges for rainfall or streamflow has usually been
made to serve a single, simple purpose, e.g.
Hydrology in Practice is addressed primarily to civil engineering undergraduates. It
aims to give an essentially practical approach to the various facets of the subject and
emphasizes the application of hydrological knowledge to solving engineering problems.
However, the style of the book should also be attractive to undergraduates in other
disciplines hoping to make a career in the water industry. Additionally, it could be a
useful reference book to the junior engineer in the design office of a consulting engineer
or water authority concerned with water engineering problems.
Civil engineers in thedeveloping countries could also benefit from this introduction to a specialist subject. Although presented from a British viewpoint, the subject is set in a global context; hydrological conditions in the different climatic regions are described; incidences of
hydrological extremes are necessarily taken from worldwide situations; and examples of
major engineering applications from many countries are noted appropriately in the text.

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MWH’s Water Treatment: Principles and Design, 3rd Edition

MWH’s Water Treatment: Principles and Design, 3rd Edition

the definitive guide to the theory and practice of water treatment engineering

THIS NEWLY REVISED EDITION of the classic reference provides complete, up-to-date coverage of both theory and practice of water treatment system design. The Third Edition brings the field up to date, addressing new regulatory requirements, ongoing environmental concerns, and the emergence of pharmacological agents and other new chemical constituents in water.

Written by some of the foremost experts in the field of public water supply, Water Treatment, Third Edition maintains the book’s broad scope and reach, while reorganizing the material for even greater clarity and readability. Topics span from the fundamentals of water chemistry and microbiology to the latest methods for detecting constituents in water, leading-edge technologies for implementing water treatment processes, and the increasingly important topic of managing residuals from water treatment plants. Along with hundreds of illustrations, photographs, and extensive tables listing chemical properties and design data, this volume:

  • Introduces a number of new topics such as advanced oxidation and enhanced coagulation
  • Discusses treatment strategies for removing pharmaceuticals and personal care products
  • Examines advanced treatment technologies such as membrane filtration, reverse osmosis, and ozone addition
  • Details reverse osmosis applications for brackish groundwater, wastewater, and other water sources
  • Provides new case studies demonstrating the synthesis of full-scale treatment trains

A must-have resource for engineers designing or operating water treatment plants, Water Treatment, Third Edition is also useful for students of civil, environmental, and water resources engineering.

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Rockfill in hydraulic engineering

Rockfill in hydraulic engineering

 

“The modern engineer who takes time to enjoy this excellent presentation will turn to rockfill with renewed confidence and will find mathematical data to support his empirical design.”

Australian Mining

 

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The hydraulic trainer volume 3 ( planning & design of hydraulic power systems )

The hydraulic trainer volume 3 ( planning & design of hydraulic power systems )

This manual Planning and Design of Hydraulic Power Systems attempts to fill the gap. The manual deals with the way in which the components of hydraulic systems work together.

The authors describe exactly what should be involved in the planning, design, manufacture and execution of hydraulic systems.

There are numerous tables, diagrams and illustrations to clarify the functional relationships and interdependent aspects of the systems. They are a very useful aid in day-to-day working.

Practical examples and the principal relevant standards will be found at the end of each chapter. The manual is not only intended for users, it can also be very useful to those undergoing initial training or retraining.

The framework of professional training for hydraulic drive and control technology is constantly expanding.

This manual will prove a valuable aid to those interested in keeping their knowledge of the subject up-to-date.

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Foundation Design: Principles and Practices (2nd Edition)

Foundation Design: Principles and Practices (2nd Edition)

 

Using a design-oriented approach that addresses geotechnical, structural, and construction aspects of foundation engineering, this book explores practical methods of designing structural foundations, while emphasizing and explaining how and why foundations behave the way they do.

It explains the theories and experimental data behind the design procedures, and how to apply this information to real-world problems. Covers general principles (performance requirements,

soil mechanics, site exploration and characterization); shallow foundations (bearing capacity, settlement, spread footings — geotechnical design, spread footings — structural design, mats);

deep foundations (axial load capacity — full-scale load tests, static methods, dynamic methods; lateral load capacity; structural design); special topics (foundations on weak and compressible

soils, foundation on expansive soils, foundations on collapsible soils); and earth retaining structures (lateral earth pressures, cantilever retaining walls, sheet pile walls, soldier pile walls,

internally stabilized earth retaining structures). For geotechnical engineers, soils engineers, structural engineers, and foundation engineers.

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Ground Anchors and Anchored Structures (Xanthakos)

Ground Anchors and Anchored Structures (Xanthakos)

 

Treating anchorages as a direct application of the laws of statics and the theories governing the transfer of load, this book focuses on designs that are safe and reasonably priced. It is divided into two parts.

Following a general introduction in the first chapter, Part One goes on to explore anchor systems, components, installation and construction details.

Presents special anchor systems such as extractable, compression-type, multibell, and regroutable anchors. Analyzes the transfer of load and its relation to failure modes and anchor load capacity; deals with design considerations; covers mechanisms and types of corrosion; and details anchor stressing, testing programs, and evaluation standards.

Part Two considers uses and applications and design aspects of anchored structures; presents design examples of practical value and reasonable simplicity; and incorporates examples and case histories.

 

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The Foundation Engineering Handbook (Gunaratne)

The Foundation Engineering Handbook (Gunaratne)

 

  This handbook contains some of the most recent developments in theoretical and applied
foundation engineering in addition to classical foundation design methods. The inclusion of
recent developments mostly enriches the classical design concepts in Chapters 3–7, 10 and 11.

It also enables the reader to update his or her knowledge of new modeling concepts applicable
to foundation design. Most recently developed in situ testing methods discussed in detail in
Chapter 2 certainly familiarize the reader with state-of-the-art techniques adopted in site
testing.

In addition, modern ground stabilization techniques introduced in Chapter 12 by an
experienced senior engineer in Hayward-Baker Inc., a leading authority in site improvement
work across North America, provides the reader with the knowledge of effective site
improvement techniques that are essential for foundation design.

Innovative and widely used methods of testing pile foundations are introduced with numerical illustrations in Chapters 2 and 7. LRFD designs in Chapters 3 and 6 and the design of retaining structures with geogrids included in Chapter 10 are unique features of this foundation engineering handbook.

For the benefit of the reader, the basic and advanced soil mechanics concepts needed in foundation design are elaborated with several numerical examples in Chapter 1.

 

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Reinforced Concrete Design Theory and Examples

Reinforced Concrete Design Theory and Examples

 

The third edition of the book has been written to conform to BS 8110 1997 the code for
structural use of concrete and BS 8007:1987 the code for Design of structures for retaining
aqueous liquids. The aim remains as stated in the first edition: to set out design theory
and illustrate the practical applications of code rules by the inclusion of as many useful
examples as possible. The book is written primarily for students on civil engineering
degree courses to assist them to understand the principles of element design and the procedures for the design of concrete buildings. The book will also be of assistance to new
graduates starting on their career in structural design.
The book has been thoroughly revised to conform to the updated code rules. Many new examples and sections have been added. In particular the chapter on Slabs has been considerably expanded with extensive coverage of Yield line analysis, Hillerborg’s strip
method and design for predetermined stress fields. In addition, four new chapters have
been added to reflect the contents of university courses in design in structural concrete.
The new chapters are concerned with design of prestressed concrete structures, design of
water tanks, a short chapter comparing the important clauses of Eurocode 2 and finally a
chapter on the fundamental theoretical aspects of design of statically indeterminate structures,
an area that is very poorly treated in most text books.
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Design and Construction of Tunnels: Analysis of Controlled Deformations in Rocks and Soils

Design and Construction of Tunnels: Analysis of Controlled Deformations in Rocks and Soils

 

Geological hazard and the lack of appropriate survey, design and construction instruments for tackling those terrains we call “difficult”, with good prospects of success, have always made the design and construction of underground works a risky affair, which could not therefore be faced with the same degree of accuracy as other civil engineering works. As a consequence they have always occupied a subordinate position with respect to similar surface constructions and in the past they were only resorted to when the latter seemed impractical or of little use.

The purpose of this book is not just to illustrate the basic concepts of the approach as fully and exhaustively as possible and to show how, by following its principles, underground works can be designed and constructed with a reliability and accuracy never attained before. Its purpose is above all to furnish the scientific community with a useful reference text around which all may work together to improve the ADECO-RS approach or even to go beyond it.

 

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Fundamentals of Electrical Engineering By Thaddeus A Roppel and Charles A Gross

Fundamentals of Electrical Engineering By Thaddeus A Roppel and Charles A Gross

Fundamentals of Electrical Engineering By Thaddeus A Roppel and Charles A Gross is available for free download in PDF format

 

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