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The Definitive Guide to Chemical Reaction Engineering Problem-Solving -- With Updated Content and More Active Learning
For decades, H. Scott Fogler's Elements of Chemical Reaction Engineering has been the world's dominant chemical reaction engineering text. This Sixth Edition and integrated Web site deliver a more compelling active learning experience than ever before. Using sliders and interactive examples in Wolfram, Python, POLYMATH, and MATLAB, students can explore reactions and reactors by running realistic simulation experiments.
Writing for today's students, Fogler provides instant access to information, avoids extraneous details, and presents novel problems linking theory to practice. Faculty can flexibly define their courses, drawing on updated chapters, problems, and extensive Professional Reference Shelf web content at diverse levels of difficulty.
The book thoroughly prepares undergraduates to apply chemical reaction kinetics and physics to the design of chemical reactors. And four advanced chapters address graduate-level topics, including effectiveness factors. To support the field's growing emphasis on chemical reactor safety, each chapter now ends with a practical safety lesson.
Full chapters on nonideal reactors, diffusion limitations, and residence time distribution
About the Companion Web Site (umich.edu/~elements/6e/index.html)
Problem-solving strategies and insights on creative and critical thinking
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Auteur
H. Scott Fogler is the Ame and CatherineVennema Professor of Chemical Engineering and the Arthur F. Thurnau Professorat the University of Michigan. He has been research advisor to forty-five Ph.D.students, and has more than two hundred thirty-five refereed publications. Hewas 2009 President of the American Institute of Chemical Engineers. Fogler haschaired ASEE's Chemical Engineering Division, served as director of theAmerican Institute of Chemical Engineers, and earned the Warren K. Lewis Awardfrom AIChE for contributions to chemical engineering education. He has receivedthe Chemical Manufacturers Association's National Catalyst Award and the 2010Malcom E. Pruitt Award from the Council for Chemical Research.
Texte du rabat
The Definitive Guide to Chemical Reaction EngineeringProblem-Solving - With Updated Content and More Active Learning
Fordecades, H. Scott Fogler's Elements of Chemical Reaction Engineering hasbeen the world's dominant chemical reaction engineering text. This SixthEdition and integrated Web site deliver a more compelling active learningexperience than ever before. Using sliders and interactive examples in Wolfram,Python, POLYMATH, and MATLAB, students can explore reactions and reactors byrunning realistic simulation experiments.
Writingfor today's students, Fogler provides instant access to information, avoidsextraneous details, and presents novel problems linking theory to practice.Faculty can flexibly define their courses, drawing on updated chapters,problems, and extensive Professional Reference Shelf web content at diverselevels of difficulty.
Thebook thoroughly prepares undergraduates to apply chemical reaction kinetics andphysics to the design of chemical reactors. And four advanced chapters addressgraduate-level topics, including effectiveness factors. To support the field'sgrowing emphasis on chemical reactor safety, each chapter now ends with apractical safety lesson.
Full chapters on nonideal reactors, diffusion limitations, and residence time distribution
Aboutthe Companion Web Site (umich.edu/~elements/6e/index.html)
Contenu
Introduction About theAuthor
Chapter 1: Mole Balances 1 1.1 The Rate of Reaction, -rA 1.2 The General Mole Balance Equation (GMBE) 1.3 Batch Reactors (BRs) 1.4 Continuous-Flow Reactors 1.5 Industrial Reactors 1.6 And Now ... A Word from Our Sponsor - Safety 1 (AWFOS - S1 Safety)
Chapter 2: Conversion and Reactor Sizing 2.1 Definition of Conversion 2.2 Batch Reactor Design Equations 2.3 Design Equations for Flow Reactors 2.4 Sizing Continuous-Flow Reactors 2.5 Reactors in Series 2.6 Some Further Definitions 2.7 And Now . . . A Word from Our Sponsor - Safety 2 (AWFOS - S2 The NFPADiamond)
Chapter 3: Rate Laws 3.1 Basic Definitions 3.2 The Rate Law 3.3 The Reaction-Rate Constant 3.4 Molecular Simulations 3.5 Present Status of Our Approach to Reactor Sizing and Design 3.6 And Now . . . A Word from Our Sponsor - Safety 3 (AWFOS - S3 The GHSDiamond)
Chapter 4: Stoichiometry 4.1 Batch Reactors (BRs) 4.2 Flow Systems 4.3 Reversible Reactions and Equilibrium Conversion 4.4 And Now . . . A Word from Our Sponsor - Safety 4 (AWFOS - S4 The Swiss CheeseModel)
Chapter 5: Isothermal Reactor Design: Conversion 5.1 Design Structure for Isothermal Reactors 5.2 Batch Reactors (BRs) 5.3 Continuous-Stirred Tank Reactors (CSTRs) 5.4 Tubular Reactors 5.5 Pressure Drop in Reactors 5.6 Synthesizing the Design of a Chemical Plant 5.7 And Now . . . A Word from Our Sponsor - Safety 5 (AWFOS - S5 A SafetyAnalysis of the Incident Algorithm)
Chapter 6: Isothermal Reactor Design: Moles and MolarFlow Rates 6.1 The Moles and Molar Flow Rate Balance Algorithms 6.2 Mole Balances on CSTRs, PFRs, PBRs, and Batch Reactors 6.3 Application of the PFR Molar Flow Ra…