Essentials of Chemical Reaction Engineering: Essenti Chemica Reactio Engi

Przednia okładka
Pearson Education, 2 lis 2010 - 99998

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
 

Spis treści

CHAPTER 1 MOLE BALANCES
1
CHAPTER 2 CONVERSION AND REACTOR SIZING
33
CHAPTER 3 RATE LAWS
73
CHAPTER 4 STOICHIOMETRY
105
CONVERSION
139
MOLAR FLOW RATES
207
CHAPTER 7 COLLECTION AND ANALYSIS OF RATE DATA
245
CHAPTER 8 MULTIPLE REACTIONS
283
CHAPTER 13 UNSTEADYSTATE NONISOTHERMAL REACTOR DESIGN
601
NUMERICAL TECHNIQUES
649
IDEAL GAS CONSTANT AND CONVERSION FACTORS
655
THERMODYNAMIC RELATIONSHIPS INVOLVING THE EQUILIBRIUM CONSTANT
659
NOMENCLATURE
665
SOFTWARE PACKAGES
669
RATE LAW DATA
673
OPENENDED PROBLEMS
675

CHAPTER 9 REACTION MECHANISMS PATHWAYS BIOREACTIONS AND BIOREACTORS
339
CHAPTER 10 CATALYSIS AND CATALYTIC REACTORS
409
CHAPTER 11 NONISOTHERMAL REACTOR DESIGNTHE STEADY STATE ENERGY BALANCE AND ADIABATIC PFR APPLICATIONS
477
CHAPTER 12 STEADYSTATE NONISOTHERMAL REACTOR DESIGNFLOW REACTORS WITH HEAT EXCHANGE
521
HOW TO USE THE DVDROM
679
INDEX
685
Prawa autorskie

Inne wydania - Wyświetl wszystko

Essentials of Chemical Reaction Engineering
H. Scott Fogler
Ograniczony podgląd - 2011
Essentials of Chemical Reaction Engineering
H. Scott Fogler
Podgląd niedostępny - 2010

Kluczowe wyrazy i wyrażenia

active intermediate adiabatic adsorbed adsorption ææ ææÆ algorithm batch reactor cal/mol calculate catalyst catalyst weight cell Chapter chemical reaction engineering concentration coolant CSTR design equation differential dm³ DVD-ROM Ê Á Ë Ê Ë energy balance entering enzyme equilibrium constant equilibrium conversion ethylene exit exothermic reaction feed function of conversion gas phase gas-phase reactions heat exchanger increase initial isothermal J/mol Kinetics Living Example Problem membrane reactor methanol mol/dm3 mol/s molar flow rate mole balance molecules multiple reactions number of moles obtain operation oxide partial pressure Polymath Polymath program pressure drop rate constant rate law rate of reaction rate-limiting reac reactant reacting reaction order reactor volume semibatch reactor shown in Figure solution solve species specific reaction rate step Stoichiometry substrate Summary Notes surface reaction Table tion tubular reactor volumetric flow rate

Informacje o autorze (2010)

H. Scott Fogler is the Ame and Catherine Vennema Professor of Chemical Engineering and the Arthur F. Thurnau Professor at the University of Michigan, and is the 2009 President of the American Institute of Chemical Engineers. His research interests include flow and reaction in porous media, fused chemical relations, gellation kinetics, colloidal phenomena, and catalyzed dissolution. He has been thesis advisor for 40 Ph.D. students and has more than 200 refereed publications in these areas. Fogler has chaired ASEE’s Chemical Engineering Division, served as director of the American Institute of Chemical Engineers, and earned the Warren K. Lewis Award from AIChE for contributions to chemical engineering education. He also received the Chemical Manufacturers Association’s National Catalyst Award. He is a coauthor of the best-selling textbook Strategies for Creative Problem Solving, Third Edition (Prentice Hall, 2014).

Informacje bibliograficzne

TytułEssentials of Chemical Reaction Engineering: Essenti Chemica Reactio Engi
Prentice Hall International Series in the Physical and Chemical Engineering Sciences
AutorH. Scott Fogler
WydawcaPearson Education, 2010
ISBN0132317176, 9780132317177
Liczba stron99998
  
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