Advanced Concrete Technology Processes

Advances in Water Resources Engineering

 

The past 35 + years have seen the emergence of a growing desire worldwide that
positive actions be taken to restore and protect the environment from the degrading
effects of all forms of pollution—air, water, soil, thermal, radioactive, and noise.
Since pollution is a direct or indirect consequence of waste, the seemingly idealistic
demand for “zero discharge” can be construed as an unrealistic demand for zero
waste. However, as long as waste continues to exist, we can only attempt to abate
the subsequent pollution by converting it into a less noxious form. Three major
questions usually arise when a particular type of pollution has been identified: (1)
How serious are the environmental pollution and water resources crisis? (2) Is the
technology to abate them available? And (3) do the costs of abatement justify the
degree of abatement achieved for environmental protection and water resources
conservation? This book is one of the volumes of the Handbook of Environmental
Engineering series. The principal intention of this series is to help readers formulate
answers to the above three questions.The traditional approach of applying tried-and-true solutions to specific environmental
and water resources problems has been a major contributing factor to the
success of environmental engineering, and has accounted in large measure for the
establishment of a “methodology of pollution control.” However, the realization
of the ever-increasing complexity and interrelated nature of current environmental
problems renders it imperative that intelligent planning of pollution abatement
systems be undertaken. Prerequisite to such planning is an understanding of the
performance, potential, and limitations of the various methods of environmental
protection available for environmental scientists and engineers. In this series of
handbooks, we will review at a tutorial level a broad spectrum of engineering systems
(natural environment, processes, operations, and methods) currently being utilized,
or of potential utility, for pollution abatement and environmental protection.
We believe that the unified interdisciplinary approach presented in these handbooks
is a logical step in the evolution of environmental engineering.
Treatment of the various engineering systems presented will show how an engineering
formulation of the subject flows naturally from the fundamental principles
and theories of chemistry, microbiology, physics, and mathematics. This emphasis
on fundamental science recognizes that engineering practice has in recent years
become more firmly based on scientific principles rather than on its earlier dependency
on empirical accumulation of facts. It is not intended, though, to neglect
empiricism where such data lead quickly to the most economic design; certain engineering
systems are not readily amenable to fundamental scientific analysis, and in
these instances we have resorted to less science in favor of more art and empiricism.
Since an environmental water resources engineer must understand science within
the context of applications, we first present the development of the scientific
basis of a particular subject, followed by exposition of the pertinent design concepts
and operations, and detailed explanations of their applications to environmental
conservation or protection. Throughout the series, methods of mathematical modeling,
system analysis, practical design, and calculation are illustrated by numerical
examples. These examples clearly demonstrate how organized, analytical reasoning
leads to the most direct and clear solutions. Wherever possible, pertinent cost data
have been provided.Our treatment of environmentalwater resources engineering is offered in the belief
that the trained engineer should more firmly understand fundamental principles,
be more aware of the similarities and/or differences among many of the engineering
systems, and exhibit greater flexibility and originality in the definition and innovative
solution of environmental system problems. In short, the environmental and
water resources engineers should by conviction and practice be more readily adaptable
to change and progress.

 

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Construction Program Management – Decision Making and Optimization Techniques

Construction Program Management – Decision Making and Optimization Techniques

 

The recent trend in the construction industry is how to manage large and complex
programs. Multiple projects being built simultaneously, as part of government or
private programs, will need structured and sophisticated program management
techniques in order to deliver the vast and complex building works at hand with a
relatively short period. Without proper program management procedures, these
often huge, complex, multi-projects can take decades to construct with draining
budgets. With program management, the building works can be relatively short
spanning years with significant cost reduction.
Although program management methods have been applied successfully in the
USA (NASA and ARMY programs as an example), Europe (Marshall Plan), and
some of the United Nation programs, there have not been literature nor research to
sustain the theories behind the successful implementation of these methods nor their
proper and scientific know-how. All the focus has been on project management
techniques with their apparent short-folds for program constructability.This book will look on the different program management methods, ranging
from simple decision-making techniques and statistics analysis to the more complex
linear programming, and how program managers, directors, clients, stakeholders,
contractors, and consultants can benefit from the availability of these different
techniques. The book is unique in a way as it looks on how to apply new and
developed techniques to optimize for the delivery of programs mainly in the field of
artificial intelligence especially knowledge-based systems and genetic algorithms.
The author’s unique experience in complex management, program management,
and his past research and studies in analytical analysis and mathematical modeling
and artificial intelligence has induced him to write this book to well inform readers
about the different techniques that can be applied for future program execution.
Program management is concerned with the construction of a group of
related projects, carried out to achieve a defined objective or benefit to a client,
falling under the auspices of a program. The program management process balances
the key program constraints and provides a tool for making decisions throughout
the program cycle based on benchmark values, performance metrics, established
procedures, and the program aims. In order to find better solutions for many aspects
of a program, including planning and scheduling, distribution of resources such as
labor and staff, optimizing the procurement process and minimizing costs while
achieving the program objectives, a program manager must be familiar with the
fundamental methodologies of heuristics methods, operations research, and
sophisticated intelligent techniques to deal with these complex issues. This book
will focus on the fundamental rules in planning and scheduling for program
activities, the application of methods and techniques in the decision-making process
for often very complex situations, operations research and optimization and
mathematical modeling, and lately, the use of complex, efficient, and intelligent
systems in order to provide optimal solutions to program managers. The book
serves as an introduction for program managers for the above and introduces the
basic elements in critical path method (CPM), statistics and forecasting methods,
linear programming, knowledge-based systems, and genetic algorithms and their
applications as decision-making tools in key areas in program management.

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Examples in Structural Analysis Second Edition

Examples in Structural Analysis Second Edition

The design of structures, of which analysis is an integral part, is frequently undertaken
using computer software. This can only be done safely and effectively if those undertaking
the design fully understand the concepts, principles and assumptions on which the
computer software is based. It is vitally important therefore that design engineers develop
this knowledge and understanding by studying and using hand-methods of analysis based
on the same concepts and principles, e.g. equilibrium, energy theorems, elastic,
elasto-plastic and plastic behaviour and mathematical modelling.
In addition to providing a mechanism for developing knowledge and understanding,
hand-methods also provide a useful tool for readily obtaining approximate solutions during
preliminary design and an independent check on the answers obtained from computer
analyses.

The methods explained and illustrated in this text, whilst not exhaustive, include those
most widely used in typical design offices, e.g. method-of-sections/joint resolution/unit
load/McCaulay’s method/moment distribution/plastic analysis etc.
In Chapter 7 a résumé is given of the direct stiffness method; the technique used in
developing most computer software analysis packages. The examples and problems in this
case have been restricted and used to illustrate the processes undertaken when using
matrix analysis; this is not regarded as a hand-method of analysis.
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Dams and Appurtenant Hydraulic Structures

Dams and Appurtenant Hydraulic Structures

Water, one of the few natural resources without which there is no life, is distributed
throughout the world unevenly in terms of place, season and quality. For this reason it
is essential to construct dams on rivers, thus forming reservoirs for the storage and the
even use of water. To date, forty-two thousand large dams have been built worldwide,
and hundreds of thousands of smaller ones, which have made possible a rational use
of a certain amount of river water – the most important water resource for human
life and activity. Dams, together with their appurtenant hydraulic structures, belong
among the most complex engineering works, above all because of their interaction with
the water, their great influence on the environment and their high cost. Therefore great
significance is given to theoretical research relating to dams, to improving the methods
of analysing and constructing them, and to the knowledge gained in the course of their
exploitation. In the past forty years great progress has been made in this respect.

Water plays an exceptionally significant role in the economy and in the life of all coun-
tries. It is of crucial importance to the existence of people, animals, and vegetation. The
settling of people in different regions of the Earth has always been closely dependant
on the possibilities for water supply, parallel with those for providing food, shelter,
and heat. The increase in population, as well as the development and enrichment of
mankind, in a number of places has reached a level at which the water supply, needed
for the population, industry, irrigation, and production of electric power, has been

brought to a critical point.

On the other hand, reserves of water on Earth are very large. They have been
estimated to amount to 1.45 billion km3 (Grishin et al., 1979). If we assume that
the above quantity of water is uniformly spread over the Earth’s surface, then the
thickness of such a water layer would be almost 3,000 m. As much as 90% of that
quantity is attributable to the water of oceans and seas, while the remainder of barely
10% belongs to lakes, rivers, underground waters, and glaciers, as well as moisture
from water in the atmosphere. Only 1/5 of the freshwater, which is suitable for man’s
life and activities, is available for use.

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Soil Mechanics Fundamentals and Applications

Soil Mechanics Fundamentals and Applications

Soil Mechanics Fundamentals is written with the intention of providing a very

basic yet essential concept of soil mechanics to students and engineers who are learn-
ing the fundamentals of soil mechanics for the first time. This book is meant mainly

for college students who have completed key engineering science courses such as
basic calculus, physics, chemistry, statistics, mechanics of solids, and engineering
materials and are ready to enter into one of the specialty areas of civil, architectural,

and geotechnical engineering. This book is intended to provide a thorough, funda-
mental knowledge of soil mechanics in a simple and yet comprehensive way, based

on the students’ knowledge of the basic engineering sciences. Special emphasis is
placed on giving the reader an understanding of what soil is, how it behaves, why it
behaves that way, and the engineering significance of such behavior.

Soil Mechanics Fundamentals is written with the intention of providing a very

basic yet essential concept of soil mechanics to students and engineers who are learn-
ing the fundamentals of soil mechanics for the first time. This book is meant mainly

for college students who have completed key engineering science courses such as
basic calculus, physics, chemistry, statistics, mechanics of solids, and engineering
materials and are ready to enter into one of the specialty areas of civil, architectural,

and geotechnical engineering. This book is intended to provide a thorough, funda-
mental knowledge of soil mechanics in a simple and yet comprehensive way, based

on the students’ knowledge of the basic engineering sciences. Special emphasis is
placed on giving the reader an understanding of what soil is, how it behaves, why it
behaves that way, and the engineering significance of such behavior.

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Concrete Construction Engineering Handbook

Concrete Construction Engineering Handbook

Portland cement concrete is a composite material made by combining cement, supplementary cementing materials, aggregates, water, and chemical admixtures in suitable proportions and allowing the resulting mixture to set and harden over time.
Because hardened concrete is a relatively brittle material with a low tensile strength,
strength, steel reinforcing bars and sometimes discontinuous fibers are used in structural concrete to provide some tensile load-bearing capacity and to increase the toughness of the material.
In this chapter, we deal with some of the basic constituents: cements, aggregates, water, steel reinforcement, and fiber reinforcement.
Chemical admixtures and supplementary cementing materials (often referred to as mineral admixtures) are covered in Chapter 2.
It must be emphasized that choosing the appropriate
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MANUAL FOR ANALYSIS & DESIGN USING ETABS

MANUAL FOR ANALYSIS & DESIGN USING ETABS

The primary objective of this document is to make sure that ETABS is used consistently by the structural
engineers in Atkins office in Dubai in terms of:
• modelling and analysis procedures
• use of applicable built-in international codes
• And complying with local authorities specific requirements.
This document is intended to complement the ETABS manuals and other relevant technical papers published
by CSI. It is assumed that the user of this manual has a good command of ETABS and is familiar with the
following codes:
• UBC 97 seismic provisions
• ASCE 7 provisions for wind loading
• BS codes of practice
Local Authority specific requirements are covered in Appendices at the end of this document.
The procedures in this document are based on standard practice in Dubai. However, for specific projects, some
parameters or procedures need to be revised. This shall be done in accordance with the design statement and
in conjunction with the project lead engineer.
Manual for
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200 Questions and Answers on Practical Civil Engineering Works

200 Questions and Answers on Practical Civil Engineering Works

This book is intended primarily to arouse the interests of graduate engineers, assistant
engineers and engineers in the technical aspect of civil engineering works. The content of
the book mainly focuses on providing the reasons of adoption of the various current
practices of civil engineering. By understanding the underlying principles of engineering
practices, graduate engineers/assistant engineers/engineers may develop an interest in civil
engineering works. It is also intended that the book will serve as a useful source of
reference for practicing engineers.

Some of these questions are selected from the book and published in the column “The Civil
FAQ” in the monthly journal The Hong Kong Engineer under the Hong Kong Institution of
Engineer. Other than this book, I have written another book called “Civil Engineering
Practical Notes A-Z” which contains similar format and targets to provide quick and
concise answers to frequently asked questions raised by engineers during their day-to-day
work.
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BOUNDARY ELEMENTS Theory and Applications

BOUNDARY ELEMENTS Theory and Applications

The last three decades have been marked by the evolution of electronic computers
and an enormous and wide-spread availability of computational power. This has

boosted the development of computational methods and their application in engi-
neering and in the analysis and design of structures, which extend from bridges to

aircrafts and from machine elements to tunnels and the human body. New scientific

subfields were generated in all engineering disciplines being described as “Compu-
tational”, e.g. Computational Mechanics, Computational Fluid Mechanics, Com-
putational Structural Analysis, Computational Structural Dynamics etc. The Finite

Element Method (FEM) and the Boundary Element Method (BEM) are the most
popular of the computational methods. While the FEM has been long established
and is most well known in the engineering community, the BEM appeared later
offering new computational capabilities with its effectiveness, accuracy and low
computational cost.

Although the BEM is taught as a regular course at an ever increasing number of
universities, there is a noticeable lack of a textbook which could help students as
well as professional engineers to understand the method, the underlying theory and
its application to engineering problems. An essential reason is that BEM courses

are taught mainly as advanced graduate courses, and therefore much of the under-
lying fundamental knowledge of mathematics and mechanics is not covered in the

respective undergraduate courses. Thus, the existing books on BEM are addressed
rather to academia and researchers who, somehow, have already been exposed to
the BEM than to students following a BEM course for the first time and engineers
who are using boundary element software in industry.

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Basic Civil Engineering by B.C. Punmia

Basic Civil Engineering by B.C. Punmia

Basic Civil Engineering is designed to enrich the preliminary conceptual knowledge about civil engineering to the students of non-civil branches of engineering.

The coverage includes materials for construction, building construction, basic surveying and other major topics like environmental engineering, geo-technical engineering,

transport traffic & urban engineering, irrigation and water supply engineering and CAD.

 

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