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Mass Transfer and Separation Processes

Mass Transfer and Separation Processes Author Diran Basmadjian
ISBN-10 9781420051605
Release 2007-04-25
Pages 512
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Mass transfer along with separation processes is an area that is often quite challenging to master, as most volumes currently available complicate the learning by teaching mass transfer linked with heat transfer, rather than focusing on more relevant techniques. With this thoroughly updated second edition, Mass Transfer and Separation Processes: Principles and Applications presents a highly thoughtful and instructive introduction to this sophisticated material by teaching mass transfer and separation processes as unique though related entities. In an ever increasing effort to demystify the subject, with this edition, the author— Avoids more complex separation processes Places a greater emphasis on the art of simplifying assumptions Conveys a greater sense of scale with the inclusion of numerous photos of actual installations Makes the math only as complicated as necessary while reviewing fundamental principles that may have been forgotten The book explores essential principles and reinforces the concepts with classical and contemporary illustrations drawn from the engineering, environmental, and biological sciences. The theories of heat conduction and transfer are utilized not so much to draw analogies but rather to make fruitful use of existing solutions not seen in other texts on the subject. Both an introductory resource and a reference, this important text serves environmental, biomedical, and engineering professionals, as well as anyone wishing to gain a grasp on this subject and its increasing relevance across a number of fields. It fills a void in traditional chemical engineering literature by providing access to the principles and working practices that allow mass transfer theory to be applied to separation processes.



Principles and Modern Applications of Mass Transfer Operations

Principles and Modern Applications of Mass Transfer Operations Author Jaime Benitez
ISBN-10 9781118210574
Release 2011-09-20
Pages 648
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A problem-solving approach that helps students master new material and put their knowledge into practice The Second Edition of the acclaimed Principles and Modern Applications of Mass Transfer Operations continues to provide a thorough, accessible text that gives students the support and the tools they need to quickly move from theory to application. This latest edition has been thoroughly revised and updated with new discussions of such developing topics as membrane separations, ion exchange, multistage batch distillation, and chromatography and other adsorptive processes. Moreover, the Second Edition now covers mass transfer phenomena in biological systems, making the text appropriate for students in biochemical engineering as well as chemical engineering. Complementing the author's clear discussions are several features that help students quickly master new material and put their knowledge into practice, including: Twenty-five to thirty problems at the end of each chapter that enable students to use their newfound knowledge to solve problems Examples and problems that help students become proficient working with Mathcad Figures and diagrams that illustrate and clarify complex concepts and processes References facilitating further in-depth research into particular topics Ten appendices filled with helpful data and reference materials Ideal for a first course in mass transfer operations, this text has proven to be invaluable to students in chemical and environmental engineering as well as researchers and university faculty.



Separation Process Principles 2nd Ed Seader Henly 2006

Separation Process Principles  2nd Ed  Seader   Henly  2006 Author John Wiley & Sons, Inc
ISBN-10
Release 2006-07-06
Pages 791
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Preface to the Second Edition NEW TO THIS EDITION "Time and tide wait for no man" and most certainly not for engineering textbooks. The seven years since publication of the first edition of "Separation Process Principles" have witnessed: (1) advances in the fundamentals of mass, heat, and momentum transport and wide availability of computer programs to facilitate the application of complex transport mathematical models; (2) changes in the practice of chemical engineering design; and (3) restructuring of the chemical engineering curriculum. In response to what we have noted and what has been pointed out in strong reviews solicited by the publishers, we have included the following revisions and additions to this second edition: A new section on dimensions and units to facilitate the use of the SI, AE, and CGS systems, which permeate applications to separation processes. The addition to each chapter of a list of instructional objectives. Increased emphasis on the many ways used to express the composition of chemical mixtures. New material on the thermodynamics of difficult mixtures, including electrolytes, polymer solutions, and mixtures of light gases and polar organic compounds. Tables of typical diffusivity values. Table of formulae and meanings of dimensionless groups. A subsection on the recent theoretical analogy of Churchill and Zajic. New sections on hybrid systems and membrane cascades. Discussions of the fourth generation of random packings and high-capacity trays. A brief discussion of the rate-based multicell model. New section on optimal control as a third mode of operation for batch distillation. New discussion on concentration polarization and fouling. New sections on ultrafiltration and microfiltration. New subsection on Continuous, Countercurrent Adsorption Systems. Revision of the subsection on the McCabe-Thiele Method for Bulk Separation by adsorption. New subsection on Simulated (and True) Moving Bed Systems for Adsorption. The following three chapters were not in the first edition of the book, but were available in hard copy, as supplemental chapters, to instructors. They are now included in the second edition: Chapter 16 on Leaching and Washing, with an added subsection on the espresso machine. Chapter 17 on Crystallization, Desublimation, and Evaporation. Chapter 18 on Drying of Solids, including Psychrometry. In the first edition, each topic was illustrated by at least one detailed example and was accompanied by at least three homework exercises. This continues to be true for most of the added topics and chapters. There are now 214 examples and 649 homework exercises. In addition, 839 references are cited.



Separation Process Principles 2nd Edition Scader Henley 2006

Separation Process Principles  2nd Edition  Scader   Henley  2006 Author John Wiley & Sons, Inc
ISBN-10
Release 2006-07-06
Pages 791
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Preface to the Second Edition NEW TO THIS EDITION "Time and tide wait for no man" and most certainly not for engineering textbooks. The seven years since publication of the first edition of "Separation Process Principles" have witnessed: (1) advances in the fundamentals of mass, heat, and momentum transport and wide availability of computer programs to facilitate the application of complex transport mathematical models; (2) changes in the practice of chemical engineering design; and (3) restructuring of the chemical engineering curriculum. In response to what we have noted and what has been pointed out in strong reviews solicited by the publishers, we have included the following revisions and additions to this second edition: A new section on dimensions and units to facilitate the use of the SI, AE, and CGS systems, which permeate applications to separation processes. The addition to each chapter of a list of instructional objectives. Increased emphasis on the many ways used to express the composition of chemical mixtures. New material on the thermodynamics of difficult mixtures, including electrolytes, polymer solutions, and mixtures of light gases and polar organic compounds. Tables of typical diffusivity values. Table of formulae and meanings of dimensionless groups. A subsection on the recent theoretical analogy of Churchill and Zajic. New sections on hybrid systems and membrane cascades. Discussions of the fourth generation of random packings and high-capacity trays. A brief discussion of the rate-based multicell model. New section on optimal control as a third mode of operation for batch distillation. New discussion on concentration polarization and fouling. New sections on ultrafiltration and microfiltration. New subsection on Continuous, Countercurrent Adsorption Systems. Revision of the subsection on the McCabe-Thiele Method for Bulk Separation by adsorption. New subsection on Simulated (and True) Moving Bed Systems for Adsorption. The following three chapters were not in the first edition of the book, but were available in hard copy, as supplemental chapters, to instructors. They are now included in the second edition: Chapter 16 on Leaching and Washing, with an added subsection on the espresso machine. Chapter 17 on Crystallization, Desublimation, and Evaporation. Chapter 18 on Drying of Solids, including Psychrometry. In the first edition, each topic was illustrated by at least one detailed example and was accompanied by at least three homework exercises. This continues to be true for most of the added topics and chapters. There are now 214 examples and 649 homework exercises. In addition, 839 references are cited.



MEMBRANE SEPARATION PROCESSES

MEMBRANE SEPARATION PROCESSES Author KAUSHIK NATH
ISBN-10 9788120352919
Release 2017-01-01
Pages 360
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This concise and systematically organized text, now in its second edition, gives a clear insight into various membrane separation processes. It covers the fundamentals as well as the recent developments of different processes along with their industrial applications and the products. It includes the basic principles, operating parameters, membrane hardware, flux equation, transport mechanism, and applications of membrane-based technologies. Membrane separation processes are largely rate-controlled separations which require rate analysis for complete understanding. Moreover, a higher level of mathematical analysis, along with the understanding of mass transfer, is also required. These are amply treated in different chapters of the book to make the students comprehend the membrane separation principles with ease. This textbook is primarily designed for undergraduate students of chemical engineering, biochemical engineering and biotechnology for the course in membrane separation processes. Besides, the book will also be useful to process engineers and researchers. KEY FEATURES • Provides sufficient number of examples of industrial applications related to chemical, metallurgical, biochemical and food processing industries. • Focuses on important biomedical applications of membrane-based technologies such as blood oxygenator, controlled drug delivery, plasmapheresis, and bioartificial organs. • Includes chapter-end short questions and problems to test students’ comprehension of the subject. NEW TO THIS EDITION • A new section on membrane cleaning is included. Membrane fabrication methods are supplemented with additional information (Chapter 2). • Additional information on silt density index, forward osmosis and sea water desalination (Chapter 3). • Physicochemical parameters affecting nanofiltration, determination of various resistances using resistance in series model and few more industrial applications with additional short questions (Chapter 4). • Membrane cross-linking methods used in pervaporation, factors affecting pervaporation and few more applications (Chapter 9). • Membrane distillation, membrane reactor with different modules, types of membranes and reactions for membrane reactor (Chapter 13).



Separation of Molecules Macromolecules and Particles

Separation of Molecules  Macromolecules and Particles Author Kamalesh Sirkar
ISBN-10 9780521895736
Release 2014-01-16
Pages 909
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A modern separation process textbook written for advanced undergraduate and graduate level courses in chemical engineering.



Mechanical Operations Fundamental Principles and Applications

Mechanical Operations Fundamental Principles and Applications Author Kiran D Patil
ISBN-10 9380064004
Release 2012-09
Pages 514
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Mechanical Operations Fundamental Principles and Applications has been writing in one form or another for most of life. You can find so many inspiration from Mechanical Operations Fundamental Principles and Applications also informative, and entertaining. Click DOWNLOAD or Read Online button to get full Mechanical Operations Fundamental Principles and Applications book for free.



Predicting the Performance of Multistage Separation Processes Second Edition

Predicting the Performance of Multistage Separation Processes  Second Edition Author Fouad M. Khoury
ISBN-10 084931495X
Release 1999-10-15
Pages 488
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Multistage separation processes are essentially the heart and soul of the petroleum, petrochemical, and chemical industries. They yield products as common as gasoline and plastics and those as specialized as medical-grade pharmaceuticals. Predicting the Performance of Multistage Separation Processes provides chemical engineers with solid information and insights into these processes. It reaches beyond fundamental principles to focus on intuitive understanding and practical interpretation. To that end, it presents numerous examples from a variety of applications, effectively demonstrating the performance of processes under varying conditions and the relationship among the different operating variables. With major advances in computational techniques for solving complex multistage separation equations, a variety of simulation programs have emerged that allow accurate and efficient prediction of multistage separation processes. These are valuable and effective tools, but are often hampered by a lack of understanding of the fundamentals and limitations of prediction techniques. The author addresses these problems and pursues a strategy that decouples the discussion of conceptual analysis and the computational techniques. Although Dr. Khoury presents mathematical methods in detail, he gives special attention to keeping the practical interpretation of the models in focus and emphasizes intuitive understanding. He applies graphical techniques and shortcut methods wherever possible and includes industrial practice heuristics about the ranges of operating variables that will work. With its updates and the addition of more than 100 new applications problems and solutions, Predicting the Performance of Multistage Separation Processes, Second Edition is ideal for a methodical study of separation processes and as a reference for the fundamental principles and shortcuts useful to the working professional.



Fundamentals of Natural Gas Processing Second Edition

Fundamentals of Natural Gas Processing  Second Edition Author Arthur J. Kidnay
ISBN-10 9781420085211
Release 2011-01-05
Pages 574
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Offering indispensable insight from experts in the field, Fundamentals of Natural Gas Processing, Second Edition provides an introduction to the gas industry and the processes required to convert wellhead gas into valuable natural gas and hydrocarbon liquids products. The authors compile information from the literature, meeting proceedings, and their own work experiences to give an accurate picture of where gas processing technology stands today as well as to highlight relatively new technologies that could become important in the future. The second edition of this bestselling text reflects important advances in gas processing technologies, including those related to liquefied natural gas (LNG). New to the Second Edition Background information in five new chapters that cover processing principles, pumps, heat transfer, separation processes, and phase separation equipment More discussions of many gas processes Questions and exercises at the end of most chapters to stress important concepts To help nonengineers understand the technical issues, the first part of the text presents an overview of the basic concepts. The topics covered in this part are applicable throughout the gas, oil, and chemical industries. The second part addresses each step of natural gas processing, with a focus on gas plant processes. The chapters in this section follow the gas stream, from gas bought at the wellhead to gas entering the marketplace. Wherever possible, the authors examine the advantages, limitations, and ranges of applicability of the processes so that their selection and integration into the overall gas plant can be fully understood. For readers without a background in chemical engineering or who are just entering the field, this book offers a thorough introduction to the natural gas industry. It also helps those in the gas industry better understand how their products and services fit into the overall process.



Transport Processes and Unit Operations Christie J Geankoplis 3rd Edition 1993

Transport Processes and Unit Operations  Christie J  Geankoplis  3rd Edition  1993 Author Prentice-Hall International, Inc
ISBN-10
Release 1993-07-03
Pages 937
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In this third edition, the main objectives and the format of the first and second editions remain the same. The sections on momentum. transfer have been greatly expanded, especially in the sections covering differential equations of momentum transfer. This now allows full coverage of the transport processes of momentum, heat, and mass transfer. Also, a section on adsorption and an expanded chapter on membrane processes have been added to the unit operations sections. The field of chemical engineering involved 'with physical and physical-t::hemical changes of inorganic and organic materials, and to some extent biological materials, is overlapping more and more with the other process engineering fields of ceramic engineering, process metallurgy, agricultural food engineering, wastewater treatment (civil) engineering, and bioengineering. The principles of momentum, heat, and mass transport and the unit operations are used in these processing fields. The principles of momentum transfer and heat transfer have been taught to all engineers. The study of mass transfer has been limited primarily to chemical engineers. However, engineers in other fields have become more interested in mass transfer in gases, liquids, and solids. Since chemical and other engineering students must study so many topics today, a more unified introduction to the transport processes of momentum, heat, and mass transfer and to the applications of unit operations is provided. In this text the principles of the transport processes are covered first, and then the unit operations. To accomplish this, the text is divided into two main parts. PART 1: Transport Processes: Momentum, Heat, and Mass This part, dealing with fundamental principles, includes the following chapters: 1. Int!"oduction to Engineering Principles and Units; 2. Principles of Momentum Transfer and Overall Balances; 3. Principles of Momentum Transfer and Applications; 4. Principles of Steady-State Heat Transfer; 5. Principles of Unsteady-State Heat Transfer; 6. xi Principles of Mass Transfer; and 7. Principles of Unsteady-State and Convective Mass Transfer. PART 2: Unit Operations This part, on applications, covers the following unit operations: 8. Evaporation; 9. Drying of Process Materials; 10. Stage and Continuous Gas-Liquid Separation Processes (humidification, absorption); 1 L Vapor-Liquid Separation Processes (distillation); 12. Liquid-Liquid and Fluid-Solid Separation Processes (adsorption, ion exchange, extraction, leaching, crystallization); 13. Membrane Separation Processes (dialysis, gas separation, reverse osmosis, ultrafiltration); 14. Mechanical-Physical Separation Processes (filtration, settling, centrifugal separation, mechanical size reduction). In Chapter 1 elementary principles of mathematical and graphical methods, laws of chemistry and physics, material balances, and heat balances are reviewed. Many, especially chemical engineers, may be familiar with most of these principles and may omit all or parts of this chapter. A few topics, involved primarily with the processing of biological materials, may be omitted at the discretion of the reader or instructor: Sections 5.5, 6.4, 8.7, 9.11, and 9.12. Over 230 example or sample problems and over 500 homework problems on all topics are included in the text. Some of the homework problems are concerned with biological systems, for those readers who are especially interested in that area. This text may be used for a course of study using any of the following five suggested plans. In all plans, Chapter 1 may or may not be included. l. Study of transport processes of momentum, heat, and mass and unit operations. In this plan, most of the complete text covering the principles of the transport processes in Part 1 and the unit operations in Part 2 are covered .. This plan could be applicable primarily to chemical engineering and also to other process engineering fields in a one and one-half year course of study at the junior and/or senior level. 2. Study of transport processes of momentum, heat, and mass and selected unit operations. Only the elementary sections of Part l (the principles chapters--2, 3, 4, 5, 6, and 7) are covered, plus selected unit operations topics in Part 2 applicable to a particular field in a two-semester or three-quarter course. Those in wastewater treatment engineering, food process engineering, and process metallurgy could follow this plan. 3. Study of transport processes of momentum, heat, and mass. The purpose of this plan in a two-quarter or two-semester course is to obtain a basic understanding of the transport processes of momentum, heat, and mass transfer. This involves studying sections of the principles chapters--2, 3, 4, 5, 6, and 7 in Part l-and omitting Part 2, the applied chapters on unit operations. 4. Study of unit operations. If the reader has had courses in the transport processes of momentum, heat, and mass, Chapters 2 through 7 can be omitted and only the unit operations chapters in Part 2 studied in a one-semester or two-quarter course. This plan could be used by chemical and certain other engineers. 5. Study of mass transfer. For those such as chemical or mechanical engineers who have had momentum and heat transfer, or those who desire only a background in mass transfer in a one-quarter or one-semester course, Chapters 6, 7, and 10 would be covered. Chapters 9, 11, 12, and 13 might be covered optionally, depending on the needs of the reader. xii Preface The SI (System~ International d'Unites) system of units has been adopted by the scientific community. Because of this, the SI system of units has been adopted in this text for use in the equations, example problems, and homework problems. However, the most important equations derived in the text are also given in a dual set of units, SI and English, when different. Many example and homework problems are also given using English units. Christie J. Geankoplis Preface



Membrane Distillation

Membrane Distillation Author Mohamed Khayet Souhaimi
ISBN-10 9780080932224
Release 2011-08-12
Pages 512
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Modern membrane engineering is critical to the development of process-intensification strategies and to the stimulation of industrial growth. Membrane Distillation (MD) is a broad reference that covers specific information on membranes available and methods for MD membrane preparation and characterization. The book offers an introduction to the terminology and fundamental concepts as well as a historical review of MD development. Commercial membranes used in MD as well as laboratory-made membranes, including emerging membranes, are described in detail and illustrated by a number of clear and instructive schematic drawings and images. A comprehensive review on the development of MD membranes, MD modules, MD membrane characterization, MD configurations, applications in different areas and theoretical models Introduction to the terminology and fundamental concepts associated with MD as well as an historical review of MD development Description of commercial membranes used in MD as well as laboratory-made membranes, including emerging membranes



Engineering Aspects of Membrane Separation and Application in Food Processing

Engineering Aspects of Membrane Separation and Application in Food Processing Author Gyula Vatai
ISBN-10 1420083635
Release 2015-12-15
Pages 584
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During the past two decades, membrane separation processes have become standard. The properties of modern membrane technology make it suitable for applications in the food industry. This book presents the principles and applications of these techniques. The first section of the text covers characteristics of membrane separation processes, mass transfer membrane processes, and concentration polarization. The second section addresses applications in the dairy industry, animal products processing, fruit and beverage processing, as well as vegetable product processing. The final section details membrane bioreactors, cost analysis, and the design of complex membrane processes.



Solvent Extraction Principles and Practice Revised and Expanded

Solvent Extraction Principles and Practice  Revised and Expanded Author Jan Rydberg
ISBN-10 0203021460
Release 2004-03-03
Pages 480
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A complete and up-to-date presentation of the fundamental theoretical principles and many applications of solvent extraction, this enhanced Solvent Extraction Principles and Practice, Second Edition includes new coverage of the recent developments in solvent extraction processes, the use of solvent extraction in analytical applications and waste recovery, and computational chemistry methods for modeling the solvent extraction of metal ions. Offering sound scientific and technical descriptions in a format accessible to students and expedient for researchers and engineers, this edition also features a new chapter on ionic strength corrections and contains more than 850 up-to-date literature citations.



Introduction to Food Engineering

Introduction to Food Engineering Author R Paul Singh
ISBN-10 0080919626
Release 2008-10-15
Pages 864
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This fourth edition of this successful textbook succinctly presents the engineering concepts and unit operations used in food processing, in a unique blend of principles with applications. Depth of coverage is very high. The authors use their many years of teaching to present food engineering concepts in a logical progression that covers the standard course curriculum. Both are specialists in engineering and world-renowned. Chapters describe the application of a particular principle followed by the quantitative relationships that define the related processes, solved examples and problems to test understanding. New chapters on: -Supplemental processes including filtration, sedimentation, centrifugation, and mixing -Extrusion processes for foods -Packaging concepts and shelf life of foods Expanded information on Emerging technologies, such as high pressure and pulsed electric field Transport of granular foods and powders Process controls and measurements Design of plate heat exchangers Impact of fouling in heat transfer processes Use of dimensional analysis in understanding physical phenomena



Applied fluid mechanics

Applied fluid mechanics Author Tasos C. Papanastasiou
ISBN-10 0130607991
Release 1994
Pages 520
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Enables the reader and practitioner of chemical engineering to develop an understanding of principles of fluid, and to utilize problem-solving approaches for handling, transferring, and processing fluids.



Biochemical Engineering

Biochemical Engineering Author Shigeo Katoh
ISBN-10 9783527685011
Release 2015-02-02
Pages 328
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Completely revised, updated, and enlarged, this second edition now contains a subchapter on biorecognition assays, plus a chapter on bioprocess control added by the new co-author Jun-ichi Horiuchi, who is one of the leading experts in the field. The central theme of the textbook remains the application of chemical engineering principles to biological processes in general, demonstrating how a chemical engineer would address and solve problems. To create a logical and clear structure, the book is divided into three parts. The first deals with the basic concepts and principles of chemical engineering and can be read by those students with no prior knowledge of chemical engineering. The second part focuses on process aspects, such as heat and mass transfer, bioreactors, and separation methods. Finally, the third section describes practical aspects, including medical device production, downstream operations, and fermenter engineering. More than 40 exemplary solved exercises facilitate understanding of the complex engineering background, while self-study is supported by the inclusion of over 80 exercises at the end of each chapter, which are supplemented by the corresponding solutions. An excellent, comprehensive introduction to the principles of biochemical engineering.



Mass Transfer

Mass Transfer Author Anthony L. Hines
ISBN-10 UOM:39015004498427
Release 1985
Pages 542
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A thorough introduction to the fundamentals and applications of microscopic and macroscopic mass transfer.