Autore	Ming David <1985->
Pubbl/distr/stampa	Hoboken, New Jersey : , : Wiley, , 2016
Descrizione fisica	1 online resource (370 p.)
Disciplina	660/.2832
Soggetto topico	Chemical reactors - Design and construction Statistical tolerance regions
ISBN	1-119-24470-6 1-119-24471-4 1-119-24469-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Title Page; Copyright; Contents; Preface; Acknowledgments; Prior Knowledge; How this book is Structured; Software and Companion Website; Nomenclature; Section I Basic Theory; Chapter 1 Introduction; 1.1 Introduction; 1.2 Motivation; 1.3 Reactor Network Synthesis; 1.4 Solving the Reactor Network Synthesis Problem; 1.5 Chapter Review; References; Chapter 2 Concentration and Mixing; 2.1 Introduction; 2.2 Concentration Vectors and Dimension; 2.3 Mixing; 2.4 Chapter Review; References; Chapter 3 The Attainable Region; 3.1 Introduction; 3.2 A Mixing and Reaction Game; 3.3 The AR 3.4 Elementary Properties of the AR3.5 Chapter Review; References; Chapter 4 Reaction; 4.1 Introduction; 4.2 Reaction Rates and Stoichiometry; 4.3 Reaction from a Geometric Viewpoint; 4.4 Three Fundamental Continuous Reactor Types; 4.5 Summary; 4.6 Mixing Temperatures; 4.7 Additional Properties of the AR; 4.8 Chapter Review; References; Chapter 5 Two-Dimensional Constructions; 5.1 Introduction; 5.2 A Framework for Tackling AR Problems; 5.3 Two-Dimensional Van De Vusse Kinetics; 5.4 Multiple CSTR Steady States and ISOLAS; 5.5 Constructions in Residence Time Space; 5.6 Chapter Review ReferencesSection II Extended Topics; Chapter 6 Higher Dimensional AR Theory; 6.1 Introduction; 6.2 Dimension and Stoichiometry; 6.3 The Three Fundamental Reactor Types Used in AR Theory; 6.4 Critical DSR\textscs and CSTR\textscs; 6.5 Chapter Review; References; Chapter 7 Applications of AR Theory; 7.1 Introduction; 7.2 Higher Dimensional Constructions; 7.3 Nonisothermal Constructions and Reactor Type Constraints; 7.4 AR Theory for Batch Reactors; 7.5 Chapter Review; References; Chapter 8 AR Construction Algorithms; 8.1 Introduction; 8.2 Preliminaries; 8.3 Overview of AR Construction Methods 8.4 Inside-out Construction Methods8.5 Outside-in Construction Methods; 8.6 Superstructure Methods; 8.7 Chapter Review; References; Chapter 9 Attainable Regions for Variable Density Systems; 9.1 Introduction; 9.2 Common Conversions to Mass Fraction Space; 9.3 Examples; 9.4 Chapter Review; References; Chapter 10 Final Remarks, Further Reading, and Future Directions; 10.1 Introduction; 10.2 Chapter Summaries and Final Remarks; 10.3 Further Reading; 10.4 Future Directions; References; Appendix A Fundamental Reactor Types; A.1 The Plug Flow Reactor; A.2 The Continuous-Flow Stirred Tank Reactor A.3 The Differential Sidestream ReactorAppendix B Mathematical Topics; B.1 Set Notation; B.2 Aspects of Linear Algebra; B.3 The Complement Principle; References; Appendix C Companion Software and Website; C.1 Introduction; C.2 Obtaining Python and Jupyter; Index; Supplemental Images; EULA
Record Nr.	UNINA-9910135031003321

Autore	Sanchez Marcano José G
Edizione	[1st ed.]
Pubbl/distr/stampa	[Place of publication not identified], : Wiley VCH, 2002
Descrizione fisica	1 online resource (257 pages)
Disciplina	660/.2832
Soggetto topico	Membrane reactors Catalysts Bioengineering Mechanical Engineering Engineering & Applied Sciences
Soggetto genere / forma	Electronic books.
ISBN	3-527-61642-X 1-280-56071-1 9786610560714 3-527-60198-8
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNINA-9910146246703321

Autore	Theodore Louis
Pubbl/distr/stampa	Hoboken, N.J., : Wiley, 2012
Descrizione fisica	1 online resource (594 p.)
Disciplina	660/.2832
Collana	Wiley series of essential engineering calculations
Soggetto topico	Chemical reactors Chemical engineering
ISBN	1-118-15862-8 1-283-64578-5 1-118-15863-6 1-118-15860-1
Classificazione	TEC009010
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	CHEMICAL REACTOR ANALYSIS AND APPLICATIONS FOR THE PRACTICING ENGINEER; CONTENTS; Preface; Overview; PART I INTRODUCTION; 1 HISTORY OF CHEMICAL REACTIONS; Introduction; Early History; Recent History; The Chemical Industry Today; Microscopic vs Macroscopic Approach; References; 2 THE FIELD OF CHEMISTRY; Introduction; Inorganic Chemistry; Organic Chemistry; Physical Chemistry; Other Chemistry Topics; Analysis Procedures; References; 3 PROCESS VARIABLES; Introduction; Temperature; Pressure; Moles and Molecular Weights; Mass and Volume; Viscosity; Heat Capacity; Thermal Conductivity Reynolds NumberpH; Vapor Pressure; The Ideal Gas Law; Latent Enthalpy Effects; Property Estimation; References; 4 KINETIC PRINCIPLES; Introduction; Reaction Rates; Rate vs Equilibrium Considerations; Representation of Rate Expressions; Solutions to Rate Expressions; Reaction Rate Theories; References; 5 STOICHIOMETRY AND CONVERSION VARIABLES; Introduction; Stoichiometry; Conversion Variables; Volume Correction Factor; Yield and Selectivity; References; PART II TRADITIONAL REACTOR ANALYSIS; 6 REACTION AND REACTOR CLASSIFICATION; Introduction; Classification of Reactions Classification of ReactorsOther Industrial Chemical Reactors; Ancillary Equipment; References; 7 THE CONSERVATION LAWS; Introduction; Conservation of Mass; Conservation of Energy; Conservation of Momentum; References; 8 BATCH REACTORS; Introduction; Equipment Description and Operation; Describing Equations; Specific Reactions; Applications; References; 9 CONTINUOUS STIRRED TANK REACTORS; Equipment Description and Operation; Describing Equations; Applications; References; 10 TUBULAR FLOW REACTORS; Introduction; Equipment Description and Operation; Describing Equations; Applications; References 11 REACTOR COMPARISONSIntroduction; Specific Comparisons: Batch, CSTR, and TF; Graphical Analysis; Applications; References; PART III REACTOR APPLICATIONS; 12 THERMAL EFFECTS; Introduction; Thermal Fundamentals and Principles; Batch Reactors; CSTR Reactors; Tubular Flow Reactors; References; 13 INTERPRETATION OF KINETIC DATA; Introduction; Experimental Methods and Analysis of Kinetic Data; Method of Least Squares; Application To Specific Reactors; Reactions of Complex Mechanism; References; 14 NON-IDEAL REACTORS; Introduction; Non-Ideal Approaches; Definitions; Estimation of Mean and Variance Residence Time DistributionsResidence Time Distribution Functions; Experimental Tracer Techniques; References; 15 REACTOR DESIGN CONSIDERATIONS; Introduction; Design Principles; Specific Design Considerations; Operation and Maintenance and Improving Performance; Reactor Selection; Applications; References; PART IV OTHER REACTOR TOPICS; 16 CATALYSTS; Introduction; Key Definitions and Testing Procedures; Chemical and Formulated Catalysts; Catalytic Processes; Catalyst Selection and Evaluation; References; 17 CATALYTIC REACTIONS; Introduction; The Overall Process; Convective Transfer Molecular Diffusion
Record Nr.	UNINA-9910141397503321

Autore	Luyben William L
Pubbl/distr/stampa	[New York], : AIChE
Descrizione fisica	1 online resource (437 p.)
Disciplina	660.2832 660/.2832
Soggetto topico	Chemical reactors - Design and construction Reactors químics
Soggetto genere / forma	Llibres electrònics
ISBN	1-281-00186-4 9786611001865 0-470-13491-7 0-470-13490-9
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	CHEMICAL REACTOR DESIGN AND CONTROL; CONTENTS; PREFACE; 1 REACTOR BASICS; 1.1 Fundamentals of Kinetics and Reaction Equilibrium; 1.1.1 Power-Law Kinetics; 1.1.2 Heterogeneous Reaction Kinetics; 1.1.3 Biochemical Reaction Kinetics; 1.1.4 Literature; 1.2 Multiple Reactions; 1.2.1 Parallel Reactions; 1.2.2 Series Reactions; 1.3 Determining Kinetic Parameters; 1.4 Types and Fundamental Properties of Reactors; 1.4.1 Continuous Stirred-Tank Reactor; 1.4.2 Batch Reactor; 1.4.3 Tubular Plug Flow Reactor; 1.5 Heat Transfer in Reactors; 1.6 Reactor ScaleUp; 1.7 Conclusion 2.8.1 Simulation Setup2.8.2 Specifying Reactions; 2.8.3 Reactor Setup; 2.9 Optimization of CSTR Systems; 2.9.1 Economics of Series CSTRs; 2.9.2 Economics of a Reactor-Column Process; 2.9.3 CSTR Processes with Two Reactants; 2.10 Conclusion; 3 CONTROL OF CSTR SYSTEMS; 3.1 Irreversible, Single Reactant; 3.1.1 Nonlinear Dynamic Model; 3.1.2 Linear Model; 3.1.3 Effect of Conversion on Openloop and Closedloop Stability; 3.1.4 Nonlinear Dynamic Simulation; 3.1.5 Effect of Jacket Volume; 3.1.6 Cooling Coil; 3.1.7 External Heat Exchanger; 3.1.8 Comparison of CSTR-in-Series Processes 3.1.9 Dynamics of Reactor-Stripper Process3.2 Reactor-Column Process with Two Reactants; 3.2.1 Nonlinear Dynamic Model of Reactor and Column; 3.2.2 Control Structure for Reactor-Column Process; 3.2.3 Reactor-Column Process with Hot Reaction; 3.3 AutoRefrigerated Reactor Control; 3.3.1 Dynamic Model; 3.3.2 Simulation Results; 3.4 Reactor Temperature Control Using Feed Manipulation; 3.4.1 Introduction; 3.4.2 Revised Control Structure; 3.4.3 Results; 3.4.4 Valve Position Control; 3.5 Aspen Dynamics Simulation of CSTRs; 3.5.1 Setting up the Dynamic Simulation 3.5.2 Running the Simulation and Tuning Controllers3.5.3 Results with Several Heat Transfer Options; 3.5.4 Use of RGIBBS Reactor; 3.6 Conclusion; 4 CONTROL OF BATCH REACTORS; 4.1 Irreversible, Single Reactant; 4.1.1 Pure Batch Reactor; 4.1.2 Fed-Batch Reactor; 4.2 Batch Reactor with Two Reactants; 4.3 Batch Reactor with Consecutive Reactions; 4.4 Aspen Plus Simulation Using RBatch; 4.5 Ethanol Batch Fermentor; 4.6 Fed-Batch Hydrogenation Reactor; 4.7 Batch TML Reactor; 4.8 Fed-Batch Reactor with Multiple Reactions; 4.8.1 Equations; 4.8.2 Effect of Feed Trajectory on Conversion and Selectivity 4.8.3 Batch Optimization
Record Nr.	UNINA-9910144003703321

Autore	Nauman E. B
Edizione	[2nd ed.]
Pubbl/distr/stampa	Hoboken, N.J., : Wiley, c2008
Descrizione fisica	1 online resource (642 p.)
Disciplina	660.2832 660/.2832
Soggetto topico	Chemical reactors Chemical engineering - Equipment and supplies
ISBN	1-282-36545-2 9786612365454 0-470-28207-X 1-61583-180-0 0-470-28206-1
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Chemical Reactor Design, Optimization, and Scaleup; Contents; Preface to the Second Edition; Symbols; 1 Elementary Reactions in Ideal Reactors; 1.1 Material Balances; 1.1.1 Measures of Composition; 1.1.2 Measures of Reaction Rate; 1.2 Elementary Reactions; 1.2.1 Kinetic Theory of Gases; 1.2.2 Rate of Formation; 1.2.3 First-Order Reactions; 1.2.4 Second-Order Reactions with One Reactant; 1.2.5 Second-Order Reactions with Two Reactants; 1.2.6 Third-Order Reactions; 1.3 Reaction Order and Mechanism; 1.4 Ideal, Isothermal Reactors; 1.4.1 Ideal Batch Reactors; 1.4.2 Reactor Performance Measures 1.4.3 Piston Flow Reactors1.4.4 Continuous Flow Stirred Tanks; 1.5 Mixing Times and Scaleup; 1.6 Dimensionless Variables and Numbers; 1.7 Batch Versus Flow and Tank Versus Tube; Suggested Further Readings; Problems; 2 Multiple Reactions in Batch Reactors; 2.1 Multiple and Nonelementary Reactions; 2.1.1 Reaction Mechanisms; 2.1.2 Byproducts; 2.2 Component Reaction Rates for Multiple Reactions; 2.3 Multiple Reactions in Batch Reactors; 2.4 Numerical Solutions to Sets of First-Order ODEs; 2.5 Analytically Tractable Examples; 2.5.1 The nth-Order Reaction 2.5.2 Consecutive First-Order Reactions, A B C · · ·2.5.3 Quasi-Steady Hypothesis; 2.5.4 Autocatalytic Reactions; 2.6 Variable-Volume Batch Reactors; 2.6.1 Systems with Constant Mass; 2.6.2 Fed-Batch Reactors; 2.7 Scaleup of Batch Reactions; 2.8 Stoichiometry and Reaction Coordinates; 2.8.1 Matrix Formulation of Reaction Rates; 2.8.2 Stoichiometry of Single Reactions; 2.8.3 Stoichiometry of Multiple Reactions; Suggested Further Readings; Problems; Appendix 2.1 Numerical Solution of Ordinary Differential Equations; 3 Isothermal Piston Flow Reactors; 3.1 Piston Flow with Constant Mass Flow 3.1.1 Gas Phase Reactions3.1.2 Liquid Phase Reactions; 3.2 Scaleup Relationships for Tubular Reactors; 3.2.1 Scaling Factors; 3.2.2 Scaling Factors for Tubular Reactors; 3.3 Scaleup Strategies for Tubular Reactors; 3.3.1 Scaling in Parallel and Partial Parallel; 3.3.2 Scaling in Series for Constant-Density Fluids; 3.3.3 Scaling in Series for Gas Flows; 3.3.4 Scaling with Geometric Similarity; 3.3.5 Scaling with Constant Pressure Drop; 3.4 Scaling Down; 3.5 Transpired-Wall Reactors; Suggested Further Readings; Problems; 4 Stirred Tanks and Reactor Combinations 4.1 Continuous Flow Stirred Tank Reactors4.2 Method of False Transients; 4.3 CSTRs with Variable Density; 4.3.1 Liquid Phase CSTRs; 4.3.2 Computational Scheme for Variable-Density CSTRs; 4.3.3 Gas Phase CSTRs; 4.4 Scaling Factors for Liquid Phase Stirred Tanks; 4.5 Combinations of Reactors; 4.5.1 Series and Parallel Connections; 4.5.2 Tanks in Series; 4.5.3 Recycle Loops; 4.5.4 Maximum Production Rate; 4.6 Imperfect Mixing; Suggested Further Readings; Problems; Appendix 4.1 Solution of Nonlinear Algebraic Equations; 5 Thermal Effects and Energy Balances 5.1 Temperature Dependence of Reaction Rates
Record Nr.	UNINA-9910144418503321