Henry Z. Kister is a Fluor Corporation senior fellow and director of fractionation technology. He has over 40 years expertise in all phases of distillation, including troubleshooting, operation, debottlenecking, design, start-up, and control of fractionation processes and equipment. For over 30 years, Mr. Kister has led the IChemE-sponsored 3-day continuing education course Practical Distillation Technology, by now presented over 550 times in public and for major corporations in 26 countries on all 6 continents.

Preface xv

List of Acronyms xix

Acknowledgments xxi

1. Troubleshooting Steps 1

1.1 Causes of Column Malfunctions 2

1.2 Column Troubleshooting - a Case History 4

1.3 Strategy for Troubleshooting Distillation Problems 6

1.4 Dos and Don'ts for Formulating and Testing Theories 12

1.5 Learning to Troubleshoot 17

1.6 Classification of Column Problems 18

2. Troubleshooting for Flood 21

2.1 Flooding: The Most Common Tower Throughput Limitation 21

2.2 Flood Mechanisms in Tray and Packed Towers 22

2.3 Flood and Flood Mechanism Determination: Hydraulic Analysis 25

2.4 Operating Window (or Stability) Diagrams 27

2.5 Flood Point Determination: Field Testing 29

2.6 Flood Point Determination in The Field: The Symptoms 31

2.7 Flood Mechanism Determination: Vapor and Liquid Sensitivity Tests 43

2.7.1 Extension of Vapor/Liquid Sensitivity Tests to Complex Fractionators 44

2.8 Gaining Insight into The Cause of Flood From dP Versus Vapor Rate Plots 46

2.9 Diagnosing Floods that Give Small dP or No dP Rise 51

2.9.1 Flood Diagnosis in a Chemical Vacuum Tower with no dP Rise 53

2.9.2 Flood Diagnosis in Packed Pumparound (PA) Beds 54

2.10 Foam Flooding Symptoms and Testing 55

2.11 Downcomer Unsealing Floods at Low Liquid Loads 64

2.12 Channeling-Induced Premature Floods at High Liquid Loads 66

2.13 Floods by High Base Level or Entrainment From the Tower Base 67

2.14 Troubleshooting Intermediate Component Accumulation 71

2.15 Troubleshooting Liquid Side Draw Bottlenecks 74

2.16 Twelve Useful Rules of Thumb 77

3. Efficiency Testing and Separation Troubleshooting 81

3.1 Efficiency Testing for Troubleshooting 81

3.1.1 Purpose and Strategy of Efficiency Testing for Troubleshooting 81

3.1.2 Planning and Execution of Efficiency Testing for Troubleshooting 83

3.1.3 Preparations for Efficiency Testing 85

3.1.4 Last-Minute Preparations 97

3.1.5 The Test Day(s) 100

3.1.6 Processing the Results 100

3.1.7 Determining Hydraulic Loads 113

3.1.8 Hennigan's Rules 115

3.2 Diagnosing Poor Separation 116

3.2.1 Troubleshoot for Process Leaks 116

3.2.2 Troubleshoot for Tray Weeping 120

3.2.3 Diagnosing Side Draw Liquid Starvation 122

3.2.4 Diagnosing Once-Through Reboiler Liquid Starvation 124

3.2.5 Troubleshoot for Liquid in Vapor Side Draws 125

3.2.6 Troubleshoot for Missing or Damaged Trays or Packing 125

3.2.7 Poor Material Balance Control Produces High Impurities 127

3.2.8 Limitations on Reflux or Reboil Generation 128

3.2.9 Control Instability Increases Impurities 129

3.2.10 Impurities and Contaminants Affecting Azeotroping and Product Purities 129

3.2.11 Absorption of Sparingly Soluble Gases Affecting Product Purity and Downstream Venting 130

3.2.12 Reactions and Contaminants Can Affect Product Purity 130

4. Diagnosing Packed Tower Maldistribution 135

4.1 Diagnosing Packing Maldistribution: an Overview 135

4.2 Expected Packing HETPS 137

4.3 Small-Scale Versus Large-Scale Maldistribution: Do They Equally Raise Hetp? 137

4.4 By How Much does Maldistribution Reduce Packing Efficiency? 138

4.5 Diagnosing Packing and Distributor Plugging 141

4.6 Troubleshooting for Distributor, Collector, and Parting Box Overflows 145

4.6.1 Overflows and Their Impact 145

4.6.2 Overflows in Distributors, Redistributors, and Parting Boxes 145

4.6.3 Overflows in Collectors 148

4.6.4 Overflows due to Plugging, Foaming, Impingement 150

4.7 Troubleshooting Maldistribution at Turndown 150

4.8 Troubleshooting Distributor Out-of-Levelness 151

4.9 Troubleshooting Distributor Feeds 153

4.10 Evaluation of Distributor Irrigation Quality 154

4.11 Troubleshooting for Vapor Maldistribution 158

4.12 Vapor Maldistribution in The Feed Zone to Refinery Vacuum Towers 161

4.13 Troubleshooting Flashing Feeds Entry 164

4.14 Troubleshooting Notched Distributors 167

4.15 Troubleshooting Spray Nozzle Distributors 169

4.16 Distributor Water Tests 173

4.16.1 Gravity Distributor Water Tests in the Supplier Shop 173

4.16.2 Gravity Distributor Water Tests In situ 175

5. Qualitative Gamma Scans Troubleshooting: The Basic Diagnostics Workhorse 179

5.1 Gamma-Ray Absorption 179

5.2 Qualitative Gamma Scans 180

5.2.1 What Do Qualitative Gamma Scans Show in Tray Towers 181

5.2.2 Entrainment versus Weeping 184

5.2.3 What Do Qualitative Gamma Scans Show in Packed Towers 185

5.2.4 Stationary Monitoring ("Time Studies") 190

5.2.5 What is in the Tower Inlet/Outlet Pipes? 191

5.3 Gamma Scans Pitfalls and Watchouts 191

5.4 Gamma Scan Shortcuts: Cost Versus Benefits 195

5.4.1 Dry (Empty Column) Scans: Yes or No? 195

5.4.2 Initial Operation Scans (Often Referred to as Baseline Scans): Yes or No? 196

5.4.3 Changed Conditions Monitoring Scans 196

5.4.4 Performing Downcomer Scans: Yes or No? 196

5.4.5 Can We Learn More about the Bottleneck? 197

5.4.6 Would Our Proposed Modification Solve the Problem? 197

5.5 Some Applications of Qualitative Gamma Scans 197

5.5.1 Distinguishing Fact from Interpretation 197

5.5.2 Is the Flood a Jet Flood? 199

5.5.3 Diagnosing the Correct Flood Mechanism and Arriving at the Effective Fix 199

5.5.4 Does the Tower Flood Occur at the Expected Location? 202

5.5.5 Foaming or Not Foaming? 204

5.5.6 Insights into Fouling Patterns/Shortcuts Lead to Misinterpretations 209

5.5.7 Multipass Trays Maldistribution 211

5.5.8 Fouling-Induced Maldistribution in 2-Pass Trays 212

5.5.9 Weeping/Dense Liquid/Missing Trays 214

5.5.10 Plugging, Flood, and Fouling Monitoring in a Packed Bed 216

5.5.11 More Plugging and Flooding in a Packed Bed 221

5.5.12 Flood due to Crushed or Damaged Random Packings 221

5.5.13 Missing Random Packings 223

5.5.14 Displaced and Damaged Structured Packings 225

5.5.15 Flooding Induces Channeling in Deep Vacuum Packed Tower 225

5.5.16 Distributor Overflow and Maldistribution 228

5.5.17 Overflow, Entrainment, and Maldistribution from Flashing Feed Distributor 230

5.5.18 Tower Overfill due to Excessive Pressure Drop in Kettle Reboiler Piping 231

5.5.19 Is a Collector (or Chimney Tray) Overflowing? Does this Initiate Flooding? 233

5.5.20 Damaged or Dry Trays? 233

6. Advanced Radioactive Techniques for Distillation Troubleshooting 237

6.1 Quantitative Multi-Chordal Tray Gamma Scans Analysis 237

6.1.1 Harrison's Method for Froth Height and Flood Determination 238

6.1.2 Application of Harrison's Method Prevents Unnecessary Shutdown 241

6.1.3 Entrainment Index 243

6.1.4 Kistergrams and their Application 244

6.1.5 Froth (or Spray) Density and Liquid Head Determination 246

6.1.6 Quantitative Analysis for High-Capacity Trays with Truncated Downcomers 248

6.1.7 Scan Chord Selection 251

6.2 Quantitative Analysis of Packing Gamma Scans 256

6.2.1 Packed Tower Quantitative Analysis Techniques 256

6.2.2 Flooding at the Bottom or Missing Packing Tower at the Top? 258

6.2.3 Dense Grid or Flooding/Coking in a Wash Bed? 259

6.2.4 Good or Bad Distribution Quality? 260

6.3 Neutron Backscatter Techniques Application 261

6.3.1 Detecting Flood and Seal Loss in Downcomers 263

6.3.2 Distinguishing Dry from Full Downcomers 264

6.3.3 Detecting Maldistribution in a Kettle Reboiler 264

6.4 CAT Scans 266

6.4.1 Identifying Unexpected Flashing in Reflux Distributor 268

6.4.2 Diagnosing Unexpected Parting Box Overflow 269

6.4.3 Monitoring Coking in a Refinery Vacuum Tower 269

6.5 Tracer Techniques 273

6.5.1 Measuring Flow Rates, Internal Leaks, and Spray Entrainment in Refinery Vacuum Tower 274

6.5.2 Observing Downward Vapor Flow in Packed Bed 275

6.5.3 Quantitative Determination of Entrainment from a Kettle Reboiler 277

6.6 Slant Scanning 280

6.7 Useful Case Histories Literature 283

6.7.1 Qualitative Gamma Scans of Trays 283

6.7.2 Qualitative Gamma Scans of Packings 284

6.7.3 Gamma Scans of Points of Transition and Inlet and Outlet Lines 284

6.7.4 Quantitative Gamma Scans of Trays 284

6.7.5 Quantitative Gamma Scans of Packings 285

6.7.6 Neutron Backscatter 285

6.7.7 CAT Scans 285

6.7.8 Tracer Technique 285

7. Thermal and Energy Troubleshooting 287

7.1 Wall Temperature Surveys 287

7.1.1 Dos and Don'ts for Temperature Surveys 288

7.1.2 Diagnosing Internals Damage 291

7.1.3 Diagnosing Packing Maldistribution 293

7.1.4 Time Study for Diagnosing the Nature of Instability 296

7.1.5 Diagnosing an Unexpected Second Liquid Phase 301

7.1.6 Diagnosing Poor Mixing in a Packing Distributor 304

7.1.7 Diagnosing Flashing in a Packing Distributor 305

7.1.8 Identifying Various Boiling Regions in a Kettle Reboiler 307

7.1.9 Identifying Plugging Zone in a Ladder Pipe Distributor 308

7.1.10 Identifying Uneven Quench Distribution in a Bottom Sump 309

7.1.11 Identifying Flood 309

7.2 Thermal Camera (Thermography) Applications 310

7.2.1 Dos and Don'ts for Thermal Camera Imaging 310

7.2.2 Diagnosing Packing Maldistribution 312

7.2.3 Diagnosing Vapor or Liquid Maldistribution in Insulated Towers 312

7.2.4 H 2 S Amine Absorber Temperature Profile,...