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

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

“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 )

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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Hydraulic Structures

The major function of a hydraulic project (i.e., water project) is to alter the natural

behavior of a water body (river, lake, sea, groundwater) by concentrating its flow fall.

It is intended for purposeful use for the benefits of national economy and to protect

the environment, including electric power generation, flood control, water supply,

silt mitigation, navigation, irrigation and draining, fish handling and farming,

ecologic protection, and recreation.

It is common that a number of hydraulic structures (i.e., hydraulic works) of general

or special purposes are constructed to form a single or integrated hydraulic project to

comprehensively serve foregoing purposes.

Such a project is known as the water resources project or hydropower project in China,

and the latter is primarily for electric power generation in addition to other possible benefits.

The general-purpose and special-purpose hydraulic structures which are parts of a hydraulic project can be further divided into main, auxiliary, and temporary structures.

As a result the successful management of a civil engineering project depends upon use

of an appropriate contract for construction; the judgements of the civil engineer in charge

and his team of engineering advisers; the need to arrange for supervision of the work of construction as it proceeds, and on the competence of the contractor engaged to build

the works and his engineers and tradesmen.

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Handbook of Engineering Hydrology

Handbook of Engineering Hydrology : Modeling, Climate Change, and Variability…

This comprehensive handbook covers multiple aspects of hydrology and with a new approach.

Other books on the subject deal mostly with classical aspects of hydrology particularly surface and ground water and physical and chemical pollution.

This volume covers management topics including water scarcity, water security, water policy and governance, and more.

It highlights the environmental aspects of hydrology such as environmental river flow, environmental nanotechnology, phyto-remediation, and constructed wetlands.

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Design of Hydraulic Gates

This second edition of Design of Hydraulic Gates maintains the same goal as the original:

to be used as a textbook and a manual of design of gates, presenting

the main aspects of design, manufacture, installation and operation of hydraulic gates, while introducing new products, technologies and calculation procedures.

This edition included new chapters on intake gates and trashrack design, highlighting the aspects of safety, operational and maintenance procedures.

To improve the strength against structural failure of intake trashracks, the author proposes a series of rigid calculation assumptions, design parameters and manufacturing procedures, which will certainly result in safer trashracks.

Some 340 drawings and photographs, 82 tables, 107 references and 23 worked examples help the reader to understand the basic concepts and calculation methods presented.

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Bridge Hydraulics

The design of bridges across rivers and streams is a major component of many civil engineering projects.

The size of waterways must be kept reasonably small for reasons of economy and yet

be large enough to allow floods to pass.

Bridge Hydraulics is the first book to consider both arched and rectangular waterway openings in detail and to describe all of the main methods of analysis.

With clear examples and relevant case studies, using both laboratory models and full- size bridges in the field,it is not only a thorough and accessible introduction to bridge hydraulics,

but also a guide that will enable engineers to produce authoritative analyses and more effective designs.

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