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The structure of this book

The structure of this book is based on a model of human error, its causes, and its role in accidents that is represented by Figures 1.4 and 1.5. This perspective is called the system-induced error approach. Up to now, only certain... [Pg.12]

Our main motivation for writing Microwaves in Organic and Medicinal Chemistry derived from our experience in teaching microwave chemistry in the form of short courses and workshops to researchers from the pharmaceutical industry. In fact, the structure of this book closely follows a course developed for the American Chemical Society and can be seen as a compendium for this course. It is hoped that some of the chapters of this book are sufficiently convincing as to encourage scientists not only to use microwave synthesis in their research, but also to offer training for their students or co-workers. [Pg.421]

When a polymer system is intended to extract polar compounds, however, we deviate from conventional polyurethane research and focus on the chemistry of the material. In this area, standard texts on polyurethanes are of little value. The chemistry is extensive enough to require the rest of this book to describe. In keeping with the structure of this book, however, our discussion of achieving a desired chemistry will occupy only a few pages. Our intent is to show how chemically active aspects of a polyurethane are incorporated into a polymer. For the most part, these chemistries are hydrophilic. This reflects the work in our lab more than predetermined restrictions of the technology. We will illustrate why the tools discussed in this chapter are valuable. We will also discuss three categories of chemical modifications and how they are incorporated into polyurethane foam. The modifications are ... [Pg.73]

The structure of this book is based upon the different data types. Chapters 2—14 all deal with the handling of continuous measurement data, with Chapters 15 and 16 focusing on categorical data, and then Chapter 17 covers ordered data. [Pg.6]

An understanding of the above characteristics and requirements for materials science and engineering forms the basis of the structure of this book, as it summarises precisely the essential knowledge requirements for CVD technology. Whilst the authors tackle a wide range of theoretical topics, the focus of the book is on the fibre-reinforced ceramic matrix composites used by the CVD or chemical vapour infiltration (CVI) processes. Based on the requirement of a systematic understanding of CVD processes, the related materials by some special CVD techniques and their potential applications, the book is structured as follows. [Pg.351]

The structure of the book can easily be explained by taking the project structure of Fig. 1.27 and having a look on the iterations of IMPROVE s evolutionary approach of Fig. 1.28. The structure of this book as well as the interdependencies of its sections are discussed here. [Pg.76]

We now discuss the structure of this book, which is given as a structure and dependency graph in Fig. 1.29. The graph does not contain all nodes. [Pg.77]

Fig. 1.29. A dependency graph describing the structure of this book... Fig. 1.29. A dependency graph describing the structure of this book...
It is hoped that the structure of this book will be useful to people in academia and industry interested in the modelling, simulation and optimization of industrial fixed bed catalytic reactors. The book can be used for advanced academic courses on industrial fixed bed catalytic reactoi s as well as for advanced training courses for industrial engineers. [Pg.16]

The word risk has a wide range of meanings. In the context of process plant management, and of the structure of this book, risk can be categorized into one of three ways. [Pg.27]

The purpose of this chapter is to deal with the surface modification of cellulose fibres in order to provide them with specific functionalities, so that they can play determining roles in such applications as reinforcing elements for composite materials, self-contained composite structures, anti-pollution aids, hybrid materials, superhydrophobic surfaces and conductive and magnetic materials. Other types of surface modifications, such as those associated with dying or the manufacture of chromosorb, enzymatic and ion-exchange supports, fall outside the scope of this review. Within the structure of this book, this chapter constitutes in many ways a bridge between the chemistry associated with bulk modification treated in Chapter 16 and the processing and properties of composite materials in Chapter 19, with the addition of more specific aspects. [Pg.386]

In consideration of the many challenges confronting the reader, who must economize time investment, the structure of this book is optimized with regard the convenience of the reader as follows ... [Pg.1245]

Hence the structure of this book quite deliberately follows that of the course. The theoretical background to electrochemistry and the discussion of electrochemical techniques are developed as parallel themes. The general principles of instrumentation and experiment design are introduced in later chapters, while those readers interested in the mathematical and computational techniques used in electrochemistry are directed to the appendix. The purpose of this first chapter is to give an overview of electrochemistry and to summarise those important equations and ideas which will be used repeatedly throughout the book and which will also be more fully justified in later chapters. [Pg.16]

The structure of this book aims to emphasize the similarity of fuel cells of different types. Nowadays, when the number of publications on FC science and technology is growing at an alarming rate, the fuel cell community tends to separate into sub-domains interested in only one type of cell. In an attempt to counteract this unfortunate trend the book is structured according to the hierarchical principle (from catalyst layers to stacks), rather than according to the cell type. SOFC, PEFC and DMFC communities can learn a lot from each other. [Pg.300]

Analytic chapters provide fundamentals to synthetic chapters. Chapter 3 evaluates and examines the model proposed in chapter 2. In chapter 4, it is studied that the effects of material parameters to design and control variables for chapter 5 and 6. In chapter 7, methods to reach desired position and to derive objective shapes are proposed, which are integrated in chapter 8. The structure of this book is illustrated in Figure 1.2. [Pg.19]

Despite these obstacles, I have tried to be fair to both of my target audiences, university/research and industry. In addition, I have tried to focus on a very inpor-tant aspect of corrosion mitigation the human managemeait factor. With this in mind, readers must understand the structure of this book to gain the maximum advantage of reading a book with such a wide potential audience. [Pg.170]

This illustrative framework is preceded by a few chapters that provide the basic tools for achieving this goal. In earlier literature, a broad category of separation techniques is identified as a mechanical separation process. These techniques are invariably restricted to the separation of particles in a fluid or drops in another fluid subjected generally to an external force. In this book, particle separations have been studied along with chemical separations when a particular external force is considered. Therefore the structure of this book is somewhat different. The following section provides a brief introduction to each chapter in the book. [Pg.2]

Thus, it makes sense to classify organic molecules according to the subunits and bonds that determine their chemical reactivity These determinants are groups of atoms called functional groups. The smdy of the various functional groups and Iheir respective reactions provides the structure of this book. [Pg.2]

Evidently, the structure of this book refers to the classical areas of Physical Chemistry (bonding theory, thermodynamics, kinetics, electrochemistry) related, however, to the solid state. In this sense, the monograph may partly serve as a textbook of physical chemistry of solids. In order not to lose track of our subject we will confine ourselves to the simplest cases. Nonetheless the introductory chapters are rather comprehensive in order to take account of the heterogeneity of potential readers. This, however, should not distract from the actual topic of the book. Those, who are familiar with these aspects or who are only interested operatively in the application of the defect-chemical formalism can skip these introductory chapters with an acceptable loss of continuity or they can refer to them later if relevant problems arise in understanding. [Pg.22]

The Structure of this Book Notes on Thermoplastics Technology Polymer Abbreviations and Symbols Acknowledgements... [Pg.497]


See other pages where The structure of this book is mentioned: [Pg.20]    [Pg.2]    [Pg.104]    [Pg.230]    [Pg.19]    [Pg.505]    [Pg.11]    [Pg.686]    [Pg.4]    [Pg.7]    [Pg.11]    [Pg.8]    [Pg.8]    [Pg.10]    [Pg.170]    [Pg.420]    [Pg.12]    [Pg.262]    [Pg.523]    [Pg.500]   


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