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Elsevier

Books in Chemical engineering

The Chemical Engineering collection offers content that combines research with foundational knowledge, practical information, methods and case studies, in a variety of areas, including biochemical engineering, catalysis, filtration & separation, colloids & surface chemistry, electrochemical engineering, energy & transport processes, materials chemistry, metallurgy, process engineering, safety & reliability, sustainable & environmental, to help chemical engineers address the challenges we face today, including climate change, global warming, health and nutrition, and alternative energy.

  • Tropical Fruit Processing

    • 1st Edition
    • Jethro Jagtian
    • English
    Tropical Fruit Processing focuses on the improved food preservations methods of tropical fruits for lesser developed and developed countries. This book covers four tropical fruits, namely, guava, mango, papaya, and passion fruit. These fruits have the greatest growth potential based on the knowledge and technology acquired in their cultivation, processing, and preservation. Each chapter in this book discusses the botany, cultivars, horticulture, harvesting, handling, storage, composition, packing, and processing of the fruit. A variety of processed products from these fruits, such as jellies, jams, preserves, purees, sauces, and juices, are also covered. Furthermore, this book describes various food preservation methods including dehydration, concentration, and canning. This book is an invaluable resource for scientists, technologists, manufacturers, students, and others concerned with cultivating, processing, manufacturing, research, development, or marketing of foods.

  • Chemisorption And Reactions On Metallic Films V1

    • 1st Edition
    • J Anderson
    • English
    Chemisorption and Reactions on Metallic Films, Volume 1 is a six-chapter text that describes the role of evaporated metal films in advancing the understanding of the metal-gas interface chemistry. Chapter 1 presents electron microscopy and diffraction studies and their contributions in elucidating the growth and structure of polycrystalline and epitaxially grown films. Chapter 2 describes the techniques of preparation and characterization of metallic films and examines the heats of adsorption, electrical conductivity, surface area, and sticking probabilities of such films. Chapter 3 discusses the strength of pairwise interactions; the influence of the intermetallic bond on the equilibrium shape of metal crystallites; the bonding of individual metal atoms to different crystallographic planes; the interaction of metal atoms and crystallites with non-conducting substrates; and the effects of residual gases on this interaction. Chapters 4 and 5 address the adsorption of metallic films, with an emphasis on general trends in adsorptive and electronic properties of bulk metals. These chapters also discuss the effects of adsorption on the electrical conductance of island-like and coherent films and on the ferromagnetic properties of films. Chapter 6 evaluates the application of infrared spectroscopy to the studies of the surfaces of metal films and the use of the available infrared spectroscopic data in reconciling the results of adsorption studies on oxide-supported metal particles with those obtained with clean evaporated metal films prepared under ultra high vacuum conditions. Research scientists and graduate students who are interested in the fundamentals of adsorption and catalysis will find this volume invaluable.

  • Marine Natural Products V3

    Chemical And Biological Perspectives
    • 1st Edition
    • Poul Schever
    • English
    Marine Natural Products: Chemical and Biological Perspectives, Volume III, reviews the state of knowledge in the chemistry and biology of marine natural products. It attempts to bring together timely and critical reviews that are representative of major current researches and that, hopefully, will also foreshadow future trends. The volume's first chapter discusses separation techniques, including liquid-liquid extraction, membrane separation, chromatography, capillary gas chromatography, and high-performance liquid chromatography. This is followed by a chapter on amino acids that have been isolated from marine algae. Kainic acid, for instance, is a well-established ascaricide that was isolated from a red alga that had been known as an anthelmintic for a thousand years. Only recently, however, has it been recognized as a valuable tool in neurophy sinology. Subsequent chapters deal with nitrogenous pigments in marine invertebrates; and the phenomenon of bioluminescence, which is relatively rare among terrestrial organisms, but which is widespread among marine biota.

  • Polyacetylene

    Chemistry, Physics, and Material science
    • 1st Edition
    • James C.W. Chien
    • English
    Polyacetylene: Chemistry, Physics, and Material Science reviews the chemistry, physics, and material science of polyacetylene. Topics covered include polymerization and crystal structure of polyacetylene, isomerization, neutral defects, and solitons. Globular morphology and the effect of heat of polymerization on polyacetylene are also discussed, along with doping and chemical reactions of polyacetylene. This book is comprised of 12 chapters and begins with an introduction to a few basic principles of polymer chemistry and solid-state physics, followed by an overview of charge-transfer salts and conducting polymers other than polyacetylene and a historical background on polyacetylene and a general description of its properties. The next chapter gives a detailed treatment of polymerization, with particular reference to the mechanisms and kinetics of acetylene polymerization and direct determination of polyacetylene molecular weight by radioquenching. The remaining chapters focus on the crystal structures and morphology of undoped polyacetylenes; methods of isomerization; spectroscopic, physical, and mechanical properties of undoped polyacetylene; and various chemical reactions of polyacetylene and polymethylacetylene. The probable mechanisms of doping are proposed and theoretical models for polyacetylene are presented. The final chapter considers a few technical applications of polyacetylene. This monograph will be of interest to chemists, physicists, and polymer scientists and engineers.

  • Plants, Chemicals and Growth

    • 1st Edition
    • F.C. Steward
    • English
    Plants, Chemicals and Growth focuses on chemicals that regulate the growth and development of plants. It explores the problems of growth and growth regulation by looking at the roles of chemical substances, natural and synthetic, which affect the behavior of the cells of flowering plants. It also describes the variety of responses triggered by such chemicals, which include herbicides, those that stimulate the rooting of cuttings or cause leaf or fruit abscission, and those associated with fruit setting and artificial parthenocarpy. Comprised of 10 chapters, this volume begins with an overview of examples of chemical regulators and the biological responses they induce in plants, from tropism and chemotropism to nastic responses; rhythmic phenomena in growth and development; initiation of lateral organs and problems of phyllotaxy; periodicities in growth; and effects on the balance between vegetative growth, flowering, and fruiting. It discusses the totipotency and exogenous regulation of cells, history and modern concepts of plant growth regulators, the ways chemicals induce growth in quiescent cells, and growth-regulating effects in free cell systems. The reader is also introduced to biologically active compounds, such as indolyl and triazine compounds; how plant-regulating substances work; concepts and interpretations of plant growth regulation; and problems and prospects of chemical regulation of plant growth and development. This book will be of interest to teachers, biology students, agriculturalists, and researchers.

  • Chemical and Biochemical Applications of Lasers V2

    • 1st Edition
    • C. Bradley Moore
    • English
    Chemical and Biochemical Applications of Lasers, Volume II illustrates the current and potential applications of lasers in new fields of research in chemistry, biology, and other important fields. The book covers the laser spectroscopy of molecular jets; methods of high-resolution spectroscopy; vibrational relaxation in condensed phases; the distributions of quantum states encountered in chemical lasers and laser-induced chemical reactions; the hydrodynamics of biological systems; and developments in lasers such as the rare gas halide ultraviolet laser, which will find important new applications in chemistry and biology. Chemists, biologists, and physicists will find the book educational and insightful.

  • Activation, Deactivation, and Poisoning of Catalysts

    • 1st Edition
    • John Butt
    • English
    Activation, Deactivation, and Poisoning of Catalysts deals with the circumstances and mechanisms underlying catalyst activation, deactivation, and poisoning. The emphasis is on the techniques for handling deactivating systems, not on results per se. Deactivation by fouling and sintering is given consideration. This book is organized into three sections and consists of 12 chapters. The first part is devoted to a systematic development of the manner in which catalysts are activated, deactivated, poisoned, and in some cases reactivated on a microscopic basis. The first chapter explains the concept of the active center as utilized in catalysis, along with catalyst regeneration, rejuvenation, and detoxification. In the second part, the reader is introduced to the problem of heat transfer as well as the transport of reactants and products in the interior of the particle coupled with chemical reaction therein. The macroscopic deactivation behavior of the catalyst particle is described in terms of fundamental kinetic deactivation phenomena and of parameters governing heat and mass transfer. The last part is primarily concerned with a collection of catalyst particles within the reactor, with emphasis on the global activity of the reactor. In the last chapter, a pragmatic approach is presented to predict the design and performance of chemical reactors containing a deactivating catalyst. This book is written for catalytic chemists, researchers, reactor designers, and students interested in catalyst activation, deactivation, and poisoning.

  • General Methods

    • 1st Edition
    • Roy Whistler
    • English
    Methods in Carbohydrate Chemistry, Volume VIII: General Methods describes the principles and mode of operation of general methods for the analysis and structural characterization of carbohydrates. This book is organized into two sections encompassing 50 chapters. The first section highlights the methods on automated chromatographic techniques; enzymic and other methods for structural analysis of polysaccharides. This section also explores the application of 13C NMR spectroscopy to carbohydrate chemistry. The second section describes the synthesis of deoxy and branched-chain sugars, 1,2-transglycosides, de-N- and de-O-sulfation, and de-N-acetylation of polysaccharides. This book is an invaluable source for organic and analytical chemists, as well as for carbohydrate scientists and researchers.

  • Chemical and Biochemical Applications of Lasers V3

    • 1st Edition
    • C. Bradley Moore
    • English
    Chemical and Biochemical Applications of Lasers, Volume III presents the fundamental principles and methods of selective photophysical and photochemical processes. The book discusses isotopic separations and related research for each eight classes of laser methods, and their applications in chemistry, biology, and materials science. The experimental results on multiphoton infrared processes and their theoretical interpretation are likewise thoroughly discussed and described. Organic and inorganic chemists, physical chemists, and optical physicists will find the text a valuable reference material.

  • Biochemical Actions of Hormones V3

    • 1st Edition
    • Gerald Litwack
    • English
    Biochemical Actions of Hormones, Volume III is a collection of papers that deals with steroid hormone action, hypothalamic-regulat... hormones, plasma membrane receptors, thyroid hormones, hormones acting on the synthesis of proteins in liver perfusion systems, as well as on approaches using genetics and cell culture. One paper explains why cell hybridization can be a useful technique in studying both genetic control of differentiated functions and of hormonal induction. Another paper discusses the general approaches in the study of ligand-membrane interactions, and cites experiments dealing with polypeptide hormones and catecholamines. It explains in detail the physiochemical interaction between a radioactively labeled ligand and the plasma membrane, either as found in an intact cell or in an isolated membrane preparation. One paper discusses the introduction and time course of estrogen-stimulated biosynthetic events in the uterus. It analyzes the relationship of the estrogen-binding protein to the biological responses of the uterus, including the "domino" versus "sustained output" model of estrogen action. One paper explains, by using a chick oviduct, how to investigate the hypothesis that hormones can activate genes to allow transcription of new species of messenger RNA. This collection can prove beneficial to biochemists, molecular biologists, cellular biologists, micro-biologists, developmental biologists, and scientists involved in cell research.

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