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Reaction Engineering Principles

Reaction Engineering Principles Author Himadri Roy Ghatak
ISBN-10 9781498758581
Release 2016-04-05
Pages 288
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Chemical reaction engineering is at the core of chemical engineering education. Unfortunately, the subject can be intimidating to students, because it requires a heavy dose of mathematics. These mathematics, unless suitably explained in the context of the physical phenomenon, can confuse rather than enlighten students. Bearing this in mind, Reaction Engineering Principles is written primarily from a student’s perspective. It is the culmination of the author’s more than twenty years of experience teaching chemical reaction engineering. The textbook begins by covering the basic building blocks of the subject—stoichiometry, kinetics, and thermodynamics—ensuring students gain a good grasp of the essential concepts before venturing into the world of reactors. The design and performance evaluation of reactors are conveniently grouped into chapters based on an increasing degree of difficulty. Accordingly, isothermal reactors—batch and ideal flow types—are addressed first, followed by non-isothermal reactor operation, non-ideal flow in reactors, and some special reactor types. For better comprehension, detailed derivations are provided for all important mathematical equations. Narrative of the physical context in which the formulae work adds to the clarity of thought. The use of mathematical formulae is elaborated upon in the form of problem solving steps followed by worked examples. Effects of parameters, changing trends, and comparisons between different situations are presented graphically. Self-practice exercises are included at the end of each chapter.

Principles of Reaction Engineering

Principles of Reaction Engineering Author Dawande Dr. S.D.
ISBN-10 8187316705
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Contents: 1. Chemical Kinematics Fundamentals, 2. Reaction Rate Mechanism, 3. Introduction to Reactor Design, 4. Batch Reactor and Semibatch Reactor, 5. Plug Flow Reactor and Mixed Flow Reactor, 6. Residence Time Distribution and Recycle Reactors, 7. Isothermal, Nonisothermal and Adiabatic Reactor, 8. Catalysis and Catalytic Reactors, 9. Gas-solid and Gas-liquid Reactions, 10. Polymerization Reaction Kinetics, 11. Biochemical Reaction Kinetics, 12. Introduction to Multiphase Reactors and Sonochemical Reactions, Tables, Reference, Index.

Cell and Tissue Reaction Engineering

Cell and Tissue Reaction Engineering Author Regine Eibl
ISBN-10 9783540681823
Release 2008-09-30
Pages 363
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The completion of the Human Genome Project and the rapid progress in cell bi- ogy and biochemical engineering, are major forces driving the steady increase of approved biotech products, especially biopharmaceuticals, in the market. Today mammalian cell products (“products from cells”), primarily monoclonals, cytokines, recombinant glycoproteins, and, increasingly, vaccines, dominate the biopharmaceutical industry. Moreover, a small number of products consisting of in vitro cultivated cells (“cells as product”) for regenerative medicine have also been introduced in the market. Their efficient production requires comprehensive knowledge of biological as well as biochemical mammalian cell culture fundamentals (e.g., cell characteristics and metabolism, cell line establishment, culture medium optimization) and related engineering principles (e.g., bioreactor design, process scale-up and optimization). In addition, new developments focusing on cell line development, animal-free c- ture media, disposables and the implications of changing processes (multi-purpo- facilities) have to be taken into account. While a number of excellent books treating the basic methods and applications of mammalian cell culture technology have been published, only little attention has been afforded to their engineering aspects. The aim of this book is to make a contribution to closing this gap; it particularly focuses on the interactions between biological and biochemical and engineering principles in processes derived from cell cultures. It is not intended to give a c- prehensive overview of the literature. This has been done extensively elsewhere.

Biological Reaction Engineering

Biological Reaction Engineering Author Irving J. Dunn
ISBN-10 3527285113
Release 1992-11-13
Pages 438
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This book is the admirable result of ten years' experience in organizing and teaching courses in biological reaction engineering. It gives engineers and scientists the information they need to analyze the behavior of complex biological reactors using mathematical equations and a dynamic simulation computer language. Part I treats the fundamentals of modelling (mass balance equations, involving reaction kinetics and mass-transfer rates), making them readily understandable to those new in the field. Part II gives 45 example problems, complete with models and programs. This book is the first of its kind to include a diskette with a commercial simulation language. The diskette can be run on any DOS personal computer. Users will appreciate how the simulation runs can be interrupted for interactive parameter changes and instructive plotting.

Enzyme Reactor Engineering

Enzyme Reactor Engineering Author F. Xavier Malcata
ISBN-10 1119998964
Release 2018-06-05
Pages 1008
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Provides a thorough study of the engineering of enzyme reactors, including comprehensive mathematical modeling and optimization Enzyme Reactor Engineering: Principles and Applications sequentially covers the three classical levels of description: macroscopic, or ideal; microscopic, or nonideal in terms of hydrodynamics (including homogeneous, nontrivial flow patterns, as well as heterogeneous systems); and submicroscopic, in terms of mixing. Major emphasis is placed on general simulation from first principles, rather than empirical correlation. This methodology rationally departs from balance equations, carefully eliminates overparameterization, and establishes dimensionless, simpler relationships; and builds on such models to find optima of relevance, while constructing rational strategies to approach common problems. This book begins with an organized introduction to enzyme reactor engineering, followed by two major parts—analysis of enzyme reaction kinetics, and analysis of enzyme reactor features. It concludes with a brief coverage of relevant mathematical concepts. A carefully paced approach, suitable even for nonspecialists, allows the reader to gain insight about the detailed kinetics of the reaction brought about by a general enzyme, and provides the complementary tools necessary to design and optimize the overall reactor behavior. Provides thorough study of the engineering of enzyme reactors, including comprehensive mathematical modeling, and coverage of additional topics (e.g. separation, control) required for effective integration and overall understanding Chapters introduce basic phenomenological principles and subsequently derive usable results, ending up with generic examples of germane applications Environmental concerns supporting white biotechnology, and a growing portfolio of available, tailored and less expensive enzymes on the market have turned enzyme reactors into a better and better performing (and recommended) technology for industrial implementation. Enzyme Reactor Engineering is thus the ideal text to support that effort–suitable for students, researchers, and practitioners working in chemical engineering, biochemistry, biological engineering, chemistry, physical chemistry, and applied physics.

Reaction Engineering

Reaction Engineering Author Shaofen Li
ISBN-10 9780124104785
Release 2017-07-14
Pages 676
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Reaction Engineering clearly and concisely covers the concepts and models of reaction engineering and then applies them to real-world reactor design. The book emphasizes that the foundation of reaction engineering requires the use of kinetics and transport knowledge to explain and analyze reactor behaviors. The authors use readily understandable language to cover the subject, leaving readers with a comprehensive guide on how to understand, analyze, and make decisions related to improving chemical reactions and chemical reactor design. Worked examples, and over 20 exercises at the end of each chapter, provide opportunities for readers to practice solving problems related to the content covered in the book. Seamlessly integrates chemical kinetics, reaction engineering, and reactor analysis to provide the foundation for optimizing reactions and reactor design Compares and contrasts three types of ideal reactors, then applies reaction engineering principles to real reactor design Covers advanced topics, like microreactors, reactive distillation, membrane reactors, and fuel cells, providing the reader with a broader appreciation of the applications of reaction engineering principles and methods

Electrochemical reaction engineering

Electrochemical reaction engineering Author K. Scott
ISBN-10 0126333300
Release 1991-01
Pages 525
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[sandra's promo copy]**Emphasizing electrochemical reactor design, this book covers electrochemistry and chemical engineering principles and will enable researchers in these fields to work together more effectively in the design process. Written as a textbook, all basic aspects are reinforced with numerous examples on real synthesis, making this an essential reference for graduate students needing to learn about fundamental electrochemical kinetics, rate processes, and modeling.

Reaction Engineering for Pollution Prevention

Reaction Engineering for Pollution Prevention Author R.P. Hesketh
ISBN-10 0080540287
Release 2000-02-09
Pages 332
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This book defines environmental reaction engineering principles, including reactor design, for the development of processes that provide an environmental benefit. With regard to pollution prevention, the focus is primarily on new reaction and reactor technologies that minimize the production of undesirable side-products (pollutants), but the use of reaction engineering as a means of treating wastes that are produced through other means is also considered. First is a section on environmentally benign combustion. The three papers discuss methods of reducing the formation of PAHs and NOx, as well as other environmentally sensitive combustion products. The next section contains a collection of contributions that involve the use of a catalyst to support the reaction. Following this is a section on the use of supercritical fluid solvents as environmentally friendly media for chemical reactions. Finally, a series of papers is presented in which novel reactor designs are utilized to obtain product yields not possible in conventional reactor systems. These include the use of reactor-absorber systems, reactive distillation, and reactive membranes. The book concludes with a chapter contributed by the editors which discusses the educational aspects of pollution prevention. It is necessary for future generations of engineers to be trained to design processes that are inherently environmentally benign. This chapter assembles resource materials for educators which will spark the creative instincts of the researchers using the materials contained within this book to develop new resources for pollution prevention education. The broad spectrum of topics included in this book indicates the diversity of this area, and the vibrant nature of the ongoing research. The possibilities of producing desirable products without the formation of waste byproducts are bounded only by the creativity of the reaction engineer.

Elements of Chemical Reaction Engineering

Elements of Chemical Reaction Engineering Author H. Scott Fogler
ISBN-10 0133887510
Release 2016-01-08
Pages 992
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The Definitive, Fully Updated Guide to Solving Real-World Chemical Reaction Engineering Problems For decades, H. Scott Fogler's Elements of Chemical Reaction Engineering has been the world's dominant text for courses in chemical reaction engineering. Now, Fogler has created a new, completely updated fifth edition of his internationally respected book. The result is a refined book that contains new examples and problems, as well as an updated companion Web site. More than ever, Fogler has successfully integrated text, visuals, and computer simulations to help both undergraduate and graduate students master all of the field's fundamentals. As always, he links theory to practice through many relevant examples, ranging from standard isothermal and non-isothermal reactor design to applications, such as solar energy, blood clotting, and drug delivery, and computer chip manufacturing. To promote the transfer of key skills to real-life settings, Fogler presents the following three styles of problems: 1. Straightforward problems that reinforce the principles of chemical reaction engineering 2. Living Example Problems (LEPs) that allow students to rapidly explore the issues and look for optimal solutions 3. Open-ended problems that encourage students to practice creative problem-solving skills ABOUT THE WEB SITE The companion Web site offers extensive enrichment opportunities and additional content, including Complete PowerPoint slides for lecture notes for chemical reaction engineering classes. Links to additional software, including POLYMATH(tm), Matlab(tm), Wolfram Mathematica(tm), AspenTech(tm), and COMSOL(tm). Interactive learning resources linked to each chapter, including Learning Objectives, Summary Notes, Web Modules, Interactive Computer Games, Solved Problems, FAQs, additional homework problems, and links to Learncheme. Living Example Problems that provide more than eighty interactive simulations, allowing students to explore the examples and ask "what-if" questions. The LEPs are unique to this book. Professional Reference Shelf, which includes advanced content on reactors, weighted least squares, experimental planning, laboratory reactors, pharmacokinetics, wire gauze reactors, trickle bed reactors, fluidized bed reactors, CVD boat reactors, detailed explanations of key derivations, and more. Problem-solving strategies and insights on creative and critical thinking.

Essentials of Chemical Reaction Engineering

Essentials of Chemical Reaction Engineering Author H. Scott Fogler
ISBN-10 9780132317177
Release 2010-11-02
Pages 792
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Learn Chemical Reaction Engineering through Reasoning, Not Memorization Essentials of Chemical Reaction Engineering is a complete yet concise, modern introduction to chemical reaction engineering for undergraduate students. While the classic Elements of Chemical Reaction Engineering, Fourth Edition, is still available, H. Scott Fogler distilled that larger text into this volume of essential topics for undergraduate students. Fogler’s unique way of presenting the material helps students gain a deep, intuitive understanding of the field’s essentials through reasoning, not memorization. He especially focuses on important new energy and safety issues, ranging from solar and biomass applications to the avoidance of runaway reactions. Thoroughly classroom tested, this text reflects feedback from hundreds of students at the University of Michigan and other leading universities. It also provides new resources to help students discover how reactors behave in diverse situations. Coverage includes Crucial safety topics, including ammonium nitrate CSTR explosions, nitroaniline and T2 Laboratories batch reactor runaways, and SAChE/CCPS resources Greater emphasis on safety: following the recommendations of the Chemical Safety Board (CSB) 2 case studies from plant explosions and two homework problems which discuss another explosion. Solar energy conversions: chemical, thermal, and catalytic water spilling Algae production for biomass Mole balances: batch, continuous-flow, and industrial reactors Conversion and reactor sizing: design equations, reactors in series, and more Rate laws and stoichiometry Isothermal reactor design: conversion and molar flow rates Collection and analysis of rate data Multiple reactions: parallel, series, and complex reactions; membrane reactors; and more Reaction mechanisms, pathways, bioreactions, and bioreactors Catalysis and catalytic reactors Nonisothermal reactor design: steady-state energy balance and adiabatic PFR applications Steady-state nonisothermal reactor design: flow reactors with heat exchange

Tenth International Symposium on Chemical Reaction Engineering

Tenth International Symposium on Chemical Reaction Engineering Author J. R. Bourne
ISBN-10 9781483157696
Release 2013-10-22
Pages 614
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ISCRE 10 Tenth International Symposium on Chemical Reaction Engineering documents the proceedings of the symposium which brought together experts from all over the world to discuss developments in CRE. Efforts were made to cover high added value substances and to encourage papers from industry. Some success was achieved, but there remain significant gaps between Chemists and Chemical Engineers when considering high added value products as well as between researchers and practitioners of CRE. The volume begins with plenary papers covering topics such as challenges in reactor modeling; bioreactor engineering; the design of reaction systems for specialty organic chemicals. This is followed by papers presented during the eight technical sessions. Technical session A focused on the modeling and control of chemical reactions. Technical session B was devoted to studies on biotechnology. Technical session C covered mixing while Technical session D dealt with special reactor systems and chemicals. The papers in Technical session E examined reactions for emission control and recycling. Technical session F covered the safety aspects of CRE. Technical session G focused on the experiments with multiphase reactions while Technical session H dealt with catalytic reactors.

Chemical reaction engineering

Chemical reaction engineering Author Octave Levenspiel
ISBN-10 UOM:39015000472004
Release 1972
Pages 578
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An improved and simplified edition of this classic introduction to the principles of reactor design for chemical reactions of all types--homogeneous, catalytic, biochemical, gas, solid, extractive, etc. Adds new material on systems of deactivating catalysts, flow modeling and diagnosis of the ills of operating equipment, and new simple design procedures for packed bed and fluidized bed reactors.

Chemical Reaction Engineering

Chemical Reaction Engineering Author L.K. Doraiswamy
ISBN-10 9781439831229
Release 2013-07-15
Pages 578
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Filling a longstanding gap for graduate courses in the field, Chemical Reaction Engineering: Beyond the Fundamentals covers basic concepts as well as complexities of chemical reaction engineering, including novel techniques for process intensification. The book is divided into three parts: Fundamentals Revisited, Building on Fundamentals, and Beyond the Fundamentals. Part I: Fundamentals Revisited reviews the salient features of an undergraduate course, introducing concepts essential to reactor design, such as mixing, unsteady-state operations, multiple steady states, and complex reactions. Part II: Building on Fundamentals is devoted to "skill building," particularly in the area of catalysis and catalytic reactions. It covers chemical thermodynamics, emphasizing the thermodynamics of adsorption and complex reactions; the fundamentals of chemical kinetics, with special emphasis on microkinetic analysis; and heat and mass transfer effects in catalysis, including transport between phases, transfer across interfaces, and effects of external heat and mass transfer. It also contains a chapter that provides readers with tools for making accurate kinetic measurements and analyzing the data obtained. Part III: Beyond the Fundamentals presents material not commonly covered in textbooks, addressing aspects of reactors involving more than one phase. It discusses solid catalyzed fluid-phase reactions in fixed-bed and fluidized-bed reactors, gas–solid noncatalytic reactions, reactions involving at least one liquid phase (gas–liquid and liquid–liquid), and multiphase reactions. This section also describes membrane-assisted reactor engineering, combo reactors, homogeneous catalysis, and phase-transfer catalysis. The final chapter provides a perspective on future trends in reaction engineering.

Bioreaction Engineering Principles

Bioreaction Engineering Principles Author Jens Nielsen
ISBN-10 9781461507673
Release 2012-12-06
Pages 528
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This is the second edition of the text "Bioreaction Engineering Principles" by Jens Nielsen and John Villadsen, originally published in 1994 by Plenum Press (now part of Kluwer). Time runs fast in Biotechnology, and when Kluwer Plenum stopped reprinting the first edition and asked us to make a second, revised edition we happily accepted. A text on bioreactions written in the early 1990's will not reflect the enormous development of experimental as well as theoretical aspects of cellular reactions during the past decade. In the preface to the first edition we admitted to be newcomers in the field. One of us (JV) has had 10 more years of job training in biotechnology, and the younger author (IN) has now received international recognition for his work with the hottest topics of "modem" biotechnology. Furthermore we are happy to have induced Gunnar Liden, professor of chemical reaction engineering at our sister university in Lund, Sweden to join us as co-author of the second edition. His contribution, especially on the chemical engineering aspects of "real" bioreactors has been of the greatest value. Chapter 8 of the present edition is largely unchanged from the first edition. We wish to thank professor Martin Hjortso from LSU for his substantial help with this chapter.

Chemical Reaction Engineering

Chemical Reaction Engineering Author Ian Saxley Metcalfe
ISBN-10 0198565380
Release 1997
Pages 91
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This book covers the material required for a basic understanding of chemical reaction engineering. Such material would normally be taught in a first chemical reaction engineering course in a university chemical engineering department. The principles of reaction engineering are simply and clearly presented; simple illustrative problems are used to demonstrate how these principles are practically applied. Further problems, with solutions, based on exam questions, are supplied. The bookis written in a way that it could be used as a self-study guide and would be useful for undergraduate chemical engineers early in their degree as well as engineers and scientists of other disciplines interested in acquiring some knowledge of reaction engineering outside of a formal teaching environment.

Principles of Chemical Reaction Engineering and Plant Design

Principles of Chemical Reaction Engineering and Plant Design Author
ISBN-10 0895735393
Release 1992
Pages 625
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Principles of Chemical Reaction Engineering and Plant Design has been writing in one form or another for most of life. You can find so many inspiration from Principles of Chemical Reaction Engineering and Plant Design also informative, and entertaining. Click DOWNLOAD or Read Online button to get full Principles of Chemical Reaction Engineering and Plant Design book for free.

Photocatalytic Reaction Engineering

Photocatalytic Reaction Engineering Author Hugo de Lasa
ISBN-10 9780387275918
Release 2006-10-31
Pages 187
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Heterogeneous photocatalysis is a novel technique for water purification. Publications on photocatalysis span a relatively recent period of not more than 25 years. This is a technique that, according to our extensive experience on the development of laboratory scale and pilot plant units, has great promise to eliminate water and air pollutants. Photocatalysis offers much more than competitive techniques where pollutants are transferred from phases; photocatalysis can achieve complete mineralization of pollutants leaving non-toxic species such as CO2 and H2O and can be exploited at close to room temperature and ambient pressure.