Analysis, Synthesis, and Design of Chemical Processes - Richard Turton, Joseph A. Shaeiwitz, Debangsu Bhattacharyya, Wallace B. Whiting

Analysis, Synthesis, and Design of Chemical Processes

Buch | Hardcover
1520 Seiten
2018 | 5th edition
Prentice Hall (Verlag)
978-0-13-417740-3 (ISBN)
189,95 inkl. MwSt
The Leading Integrated Chemical Process Design Guide: With Extensive Coverage of Equipment Design and Other Key Topics More than ever, effective design is the focal point of sound chemical engineering. Analysis, Synthesis, and Design of Chemical Processes, Fifth Edition, presents design as a creative process that integrates the big-picture and small details, and knows which to stress when and why. Realistic from start to finish, it moves readers beyond classroom exercises into open-ended, real-world problem solving. The authors introduce up-to-date, integrated techniques ranging from finance to operations, and new plant design to existing process optimization. The fifth edition includes updated safety and ethics resources and economic factors indices, as well as an extensive, new section focused on process equipment design and performance, covering equipment design for common unit operations, such as fluid flow, heat transfer, separations, reactors, and more.

Conceptualization and analysis: process diagrams, configurations, batch processing, product design, and analyzing existing processes
Economic analysis: estimating fixed capital investment and manufacturing costs, measuring process profitability, and more
Synthesis and optimization: process simulation, thermodynamic models, separation operations, heat integration, steady-state and dynamic process simulators, and process regulation
Chemical equipment design and performance: a full section of expanded and revamped coverage of designing process equipment and evaluating the performance of current equipment
Advanced steady-state simulation: goals, models, solution strategies, and sensitivity and optimization results
Dynamic simulation: goals, development, solution methods, algorithms, and solvers
Societal impacts: ethics, professionalism, health, safety, environmental issues, and green engineering
Interpersonal and communication skills: working in teams, communicating effectively, and writing better reports

This text draws on a combined 55 years of innovative instruction at West Virginia University (WVU) and the University of Nevada, Reno. It includes suggested curricula for one- and two-semester design courses, case studies, projects, equipment cost data, and extensive preliminary design information for jump-starting more detailed analyses.

Richard Turton, P.E., has taught the design and design-related courses at West Virginia University for the past 32 years. Prior to this, he spent five years in the design and construction industry. His main interests are design education and process systems modeling. Joseph A. Shaeiwitz taught design and design-related classes at West Virginia University for more than 25 years. He now teaches design at Auburn University. His interests include design education and outcomes assessment. Debangsu Bhattacharyya has more than ten years' experience in a large petroleum refinery. While in the refinery, he worked in process operations, plant start-up, large-scale process simulation, and process control. His main research interests are in process modeling, dynamic simulation, state estimation, sensor placement, and advanced process control. Wallace B. Whiting, P.E., is professor emeritus at University of Nevada, Reno. He has been involved in the practice and teaching of chemical process design for more than 24 years. Normal 0 false false false EN-US X-NONE X-NONE

Preface xxv

About the Authors xxix

List of Nomenclature xxxi





Chapter 0: Outcomes Assessment 1

0.1 Student Self-Assessment 2

0.2 Assessment by Faculty 4

0.3 Summary 6

References 6





Section I: Conceptualization and Analysis of Chemical Processes 7



Chapter 1: Diagrams for Understanding Chemical Processes 9



1.1 Block Flow Diagram (BFD) 11

1.2 Process Flow Diagram (PFD) 14

1.3 Piping and Instrumentation Diagram (P&ID) 27

1.4 Additional Diagrams 32

1.5 Three-Dimensional Representation of a Process 34

1.6 The 3-D Plant Model 41

1.7 Operator and 3-D Immersive Training Simulators 43

1.8 Summary 48

References 49

Short Answer Questions 49

Problems 50



Chapter 2: The Structure and Synthesis of Process Flow Diagrams 55

2.1 Hierarchy of Process Design 55

2.2 Step 1-Batch versus Continuous Process 56

2.3 Step 2-The Input/Output Structure of the Process 60

2.4 Step 3-The Recycle Structure of the Process 70

2.5 Step 4-General Structure of the Separation System 83

2.6 Step 5-Heat-Exchanger Network or Process Energy Recovery System 83

2.7 Information Required and Sources 83

2.8 Summary 83

References 85

Short Answer Questions 86

Problems 86



Chapter 3: Batch Processing 91

3.1 Design Calculations for Batch Processes 91

3.2 Gantt Charts and Scheduling 97

3.3 Nonoverlapping Operations, Overlapping Operations, and Cycle Times 98

3.4 Flowshop and Jobshop Plants 101

3.5 Product and Intermediate Storage and Parallel Process Units 106

3.6 Design of Equipment for Multiproduct Batch Processes 111

3.7 Summary 113

References 114

Short Answer Questions 114

Problems 114



Chapter 4: Chemical Product Design 123

4.1 Strategies for Chemical Product Design 124

4.2 Needs 125

4.3 Ideas 127

4.4 Selection 128

4.5 Manufacture 130

4.6 Batch Processing 131

4.7 Economic Considerations 131

4.8 Summary 132

References 132



Chapter 5: Tracing Chemicals through the Process Flow Diagram 135

5.1 Guidelines and Tactics for Tracing Chemicals 135

5.2 Tracing Primary Paths Taken by Chemicals in a Chemical Process 136

5.3 Recycle and Bypass Streams 142

5.4 Tracing Nonreacting Chemicals 145

5.5 Limitations 145

5.6 Written Process Description 146

5.7 Summary 147

Problems 147



Chapter 6: Understanding Process Conditions 149

6.1 Conditions of Special Concern for the Operation of Separation and Reactor Systems 150

6.2 Reasons for Operating at Conditions of Special Concern 152

6.3 Conditions of Special Concern for the Operation of Other Equipment 155

6.4 Analysis of Important Process Conditions 158

6.5 Summary 165

References 165

Short Answer Questions 165

Problems 166





Section II: Engineering Economic Analysis of Chemical Processes 169



Chapter 7: Estimation of Capital Costs 171



7.1 Classifications of Capital Cost Estimates 172

7.2 Estimation of Purchased Equipment Costs 175

7.3 Estimating the Total Capital Cost of a Plant 182

7.4 Estimation of Plant Costs Based on Capacity Information 206

7.5 Summary 208

References 208

Short Answer Questions 209

Problems 210



Chapter 8: Estimation of Manufacturing Costs 213

8.1 Factors Affecting the Cost of Manufacturing a Chemical Product 213

8.2 Cost of Operating Labor 218

8.3 Utility Costs 219

8.4 Raw Material Costs 234

8.5 Yearly Costs and Stream Factors 237

8.6 Estimating Utility Costs from the PFD 238

8.7 Cost of Treating Liquid and Solid Waste Streams 240

8.8 Evaluation of Cost of Manufacture for the Production of Benzene via the Hydrodealkylation of Toluene 241

8.9 Summary 242

References 243

Short Answer Questions 243

Problems 244



Chapter 9: Engineering Economic Analysis 247

9.1 Investments and the Time Value of Money 248

9.2 Different Types of Interest 251

9.3 Time Basis for Compound Interest Calculations 254

9.4 Cash Flow Diagrams 255

9.5 Calculations from Cash Flow Diagrams 259

9.6 Inflation 266

9.7 Depreciation of Capital Investment 268

9.8 Taxation, Cash Flow, and Profit 274

9.9 Summary 277

References 277

Short Answer Questions 278

Problems 278



Chapter 10: Profitability Analysis 285

10.1 A Typical Cash Flow Diagram for a New Project 285

10.2 Profitability Criteria for Project Evaluation 287

10.3 Comparing Several Large Projects: Incremental Economic Analysis 295

10.4 Establishing Acceptable Returns from Investments: The Concept of Risk 298

10.5 Evaluation of Equipment Alternatives 299

10.6 Incremental Analysis for Retrofitting Facilities 305

10.7 Evaluation of Risk in Evaluating Profitability 309

10.8 Profit Margin Analysis 325

10.9 Summary 326

References 327

Short Answer Questions 327

Problems 328





Section III: Synthesis and Optimization of Chemical Processes 343



Chapter 11: Utilizing Experience-Based Principles to Confirm the Suitability of a Process Design 347



11.1 The Role of Experience in the Design Process 348

11.2 Presentation of Tables of Technical Heuristics and Guidelines 351

11.3 Summary 354

List of Informational Tables 354

References 368

Problems 368



Chapter 12: Synthesis of the PFD from the Generic BFD 369

12.1 Information Needs and Sources 370

12.2 Reactor Section 372

12.3 Separator Section 373

12.4 Reactor Feed Preparation and Separator Feed Preparation Sections 388

12.5 Recycle Section 389

12.6 Environmental Control Section 389

12.7 Major Process Control Loops 390

12.8 Flow Summary Table 390

12.9 Major Equipment Summary Table 390

12.10 Summary 391

References 391

General Reference 392

Problems 392



Chapter 13: Synthesis of a Process Using a Simulator and Simulator Troubleshooting 397

13.1 The Structure of a Process Simulator 398

13.2 Information Required to Complete a Process Simulation: Input Data 401

13.3 Handling Recycle Streams 413

13.4 Choosing Thermodynamic Models 415

13.5 Case Study: Toluene Hydrodealkylation Process 426

13.6 Electrolyte Systems Modeling 428

13.7 Solids Modeling 440

Appendix 13.1 445

Appendix 13.2 447

13.8 Summary 450

References 451

Short Answer Questions 454

Problems 455



Chapter 14: Process Optimization 463

14.1 Background Information on Optimization 463

14.2 Strategies 469

14.3 Topological Optimization 473

14.4 Parametric Optimization 479

14.5 Lattice Search, Response Surface, and Mathematical Optimization Techniques 489

14.6 Process Flexibility and the Sensitivity of the Optimum 489

14.7 Optimization in Batch Systems 490

14.8 Summary 497

References 498

Short Answer Questions 498

Problems 498



Chapter 15: Pinch Technology 509

15.1 Introduction 509

15.2 Heat Integration and Network Design 510

15.3 Composite Temperature-Enthalpy Diagram 523

15.4 Composite Enthalpy Curves for Systems without a Pinch 524

15.5 Using the Composite Enthalpy Curve to Estimate Heat-Exchanger Surface Area 525

15.6 Effectiveness Factor (F) and the Number of Shells 529

15.7 Combining Costs to Give the EAOC for the Network 534

15.8 Other Considerations 536

15.9 Heat-Exchanger Network Synthesis Analysis and Design (HENSAD) Program 540

15.10 Mass-Exchange Networks 541

15.11 Summary 550

References 550

Short Answer Questions 551

Problems 552



Chapter 16: Advanced Topics Using Steady-State Simulators 561

16.1 Why the Need for Advanced Topics in Steady-State Simulation? 562

16.2 User-Added Models 562

16.3 Solution Strategy for Steady-State Simulations 571

16.4 Studies with the Steady-State Simulation 589

16.5 Estimation of Physical Property Parameters 601

16.6 Summary 605

References 605

Short Answer Questions 607

Problems 607



Chapter 17: Using Dynamic Simulators in Process Design 617

17.1 Why Is There a Need for Dynamic Simulation? 618

17.2 Setting Up a Dynamic Simulation 619

17.3 Dynamic Simulation Solution Methods 633

17.4 Process Control 639

17.5 Summary 647

References 647

Short Answer Questions 648

Problems 649



Chapter 18: Regulation and Control of Chemical Processes with Applications Using Commercial Software 655

18.1 A Simple Regulation Problem 656

18.2 The Characteristics of Regulating Valves 657

18.3 Regulating Flowrates and Pressures 660

18.4 The Measurement of Process Variables 662

18.5 Common Control Strategies Used in Chemical Processes 663

18.6 Exchanging Heat and Work between Process and Utility Streams 674

18.7 Logic Control 680

18.8 Advanced Process Control 682

18.9 Case Studies 683

18.10 Putting It All Together: The Operator Training Simulator (OTS) 688

18.11 Summary 689

References 690

Problems 690





Section IV: Chemical Equipment Design and Performance Process Equipment Design and Performance 695



Chapter 19: Process Fluid Mechanics 697



19.1 Basic Relationships in Fluid Mechanics 697

19.2 Fluid Flow Equipment 703

19.3 Frictional Pipe Flow 709

19.4 Other Flow Situations 723

19.5 Performance of Fluid Flow Equipment 736

References 755

Short Answer Questions 756

Problems 757



Chapter 20: Process Heat Transfer 771

20.1 Basic Heat-Exchanger Relationships 771

20.2 Heat-Exchange Equipment Design and Characteristics 779

20.3 LMTD Correction Factor for Multiple Shell and Tube Passes 789

20.4 Overall Heat Transfer Coefficients-Resistances in Series 798

20.5 Estimation of Individual Heat Transfer Coefficients and Fouling Resistances 800

20.6 Extended Surfaces 828

20.7 Algorithm and Worked Examples for the Design of Heat Exchangers 837

20.8 Performance Problems 846

References 859

Appendix 20.A Heat-Exchanger Effectiveness Charts 861

Appendix 20.B Derivation of Fin Effectiveness for a Rectangular Fin 864

Short Answer Questions 866

Problems 866



Chapter 21: Separation Equipment 875

21.1 Basic Relationships in Separations 876

21.2 Illustrative Diagrams 883

21.3 Equipment 911

21.4 Extraction Equipment 942

21.5 Gas Permeation Membrane Separations 947

References 951

Short Answer Questions 952

Problems 954



Chapter 22: Reactors 961

22.1 Basic Relationships 962

22.2 Equipment Design for Nonisothermal Conditions 980

22.3 Performance Problems 1003



Chapter 23: Other Equipment 1015

23.1 Pressure Vessels 1016

23.2 Knockout Drums or Simple Phase Separators 1024

23.3 Steam Ejectors 1049

References 1058

Short Answer Questions 1059

Problems 1060



Chapter 24: Process Troubleshooting and Debottlenecking 1065

24.1 Recommended Methodology 1067

24.2 Troubleshooting Individual Units 1071

24.3 Troubleshooting Multiple Units 1076

24.4 A Process Troubleshooting Problem 1081

24.5 Debottlenecking Problems 1085

24.6 Summary 1091

References 1091

Problems 1091





Section V: The Impact of Chemical Engineering Design on Society 1101



Chapter 25: Ethics and Professionalism 1103



25.1 Ethics 1104

25.2 Professional Registration 1121

25.3 Legal Liability [13] 1125

25.4 Business Codes of Conduct [14, 15] 1126

25.5 Summary 1127

References 1128

Problems 1129



Chapter 26: Health, Safety, and the Environment 1131

26.1 Risk Assessment 1131

26.2 Regulations and Agencies 1134

26.3 Fires and Explosions 1143

26.4 Process Hazard Analysis 1145

26.5 Chemical Safety and Hazard Investigation Board 1153

26.6 Inherently Safe Design 1153

26.7 Summary 1154

26.8 Glossary 1154

References 1156

Problems 1157



Chapter 27: Green Engineering 1159

27.1 Environmental Regulations 1159

27.2 Environmental Fate of Chemicals 1160

27.3 Green Chemistry 1163

27.4 Pollution Prevention during Process Design 1164

27.5 Analysis of a PFD for Pollution Performance and Environmental Performance 1166

27.6 An Example of the Economics of Pollution Prevention 1167

27.7 Life Cycle Analysis 1168

27.8 Summary 1169





Section VI: Interpersonal and Communication Skills 1173



Chapter 28: Teamwork 1175



28.1 Groups 1175

28.2 Group Evolution 1184

28.3 Teams and Teamwork 1186

28.4 Misconceptions 1189

28.5 Learning in Teams 1189

28.6 Other Reading 1190

28.7 Summary 1191

References 1192

Problems 1192



Chapter 29: Written and Oral Communication 1195

29.1 Audience Analysis 1196

29.2 Written Communication 1196

29.3 Oral Communication 1209

29.4 Software and Author Responsibility 1215

29.5 Summary 1218

References 1218

Problems 1219



Chapter 30: A Report-Writing Case Study 1221

30.1 The Assignment Memorandum 1221

30.2 Response Memorandum 1222

30.3 Visual Aids 1224

30.4 Example Reports 1230

30.5 Checklist of Common Mistakes and Errors 1244



Appendix A: Cost Equations and Curves for the CAPCOST Program 1247

A.1 Purchased Equipment Costs 1247

A.2 Pressure Factors 1264

A.3 Material Factors and Bare Module Factors 1267

References 1275



Appendix B: Information for the Preliminary Design of Fifteen Chemical Processes 1277

B.1 Dimethyl Ether (DME) Production, Unit 200 1278

B.2 Ethylbenzene Production, Unit 300 1283

B.3 Styrene Production, Unit 400 1291

B.4 Drying Oil Production, Unit 500 1299

B.5 Production of Maleic Anhydride from Benzene, Unit 600 1305

B.6 Ethylene Oxide Production, Unit 700 1311

B.7 Formalin Production, Unit 800 1317

B.8 Batch Production of L-Phenylalanine and L-Aspartic Acid, Unit 900 1323

B.9 Acrylic Acid Production via the Catalytic Partial Oxidation of Propylene [1-5], Unit 1000 1329

B.10 Production of Acetone via the Dehydrogenation of Isopropyl Alcohol (IPA) [1-4], Unit 1100 1338

B.11 Production of Heptenes from Propylene and Butenes [1], Unit 1200 1344

B.12 Design of a Shift Reactor Unit to Convert CO to CO2, Unit 1300 1352

B.13 Design of a Dual-Stage Selexol Unit to Remove CO2 and H2S From

B.14 Design of a Claus Unit for the Conversion of H2S to Elemental Sulfur, Unit 1500 1363

B.15 Modeling a Downward-Flow, Oxygen-Blown, Entrained-Flow Gasifier, Unit 1600 1371



Appendix C: Design Projects 1379

Project 1 Increasing the Production of 3-Chloro-1-Propene (Allyl Chloride) in Unit 600 1381

Project 2 Design and Optimization of a New 20,000-Metric-Tons-per-Year Facility to Produce Allyl Chloride at La Nueva Cantina, Mexico 1394

Project 4 The Design of a New 100,000-Metric-Tons-per-Year Phthalic Anhydride Production Facility 1412

Project 5 Problems at the Cumene Production Facility, Unit 800 1417

Project 6 Design of a New, 100,000-Metric-Tons-per-Year Cumene Production Facility 1430



Index 1433

Erscheinungsdatum
Reihe/Serie International Series in the Physical and Chemical Engineering Sciences
Verlagsort Upper Saddle River
Sprache englisch
Maße 100 x 100 mm
Gewicht 100 g
Themenwelt Naturwissenschaften Chemie Technische Chemie
Technik Umwelttechnik / Biotechnologie
ISBN-10 0-13-417740-1 / 0134177401
ISBN-13 978-0-13-417740-3 / 9780134177403
Zustand Neuware
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