Buch, Englisch, 264 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 672 g
Buch, Englisch, 264 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 672 g
Reihe: Advances in Industrial Control
ISBN: 978-3-031-43121-0
Verlag: Springer Nature Switzerland
This book provides a summary of the essential knowledge and working processes involved with control of rotating equipment including:
- machine characteristics;
- overall control strategies;
- detailed design; and
- best practices.
Emphasis is placed on the role of pumps and compressors as part of the overall process flow rather than treating them in isolation as this tends to optimize energy efficiency.
Readers are made aware of the critical roles of rotating equipment and are given a good understanding of their dynamic behaviors, including surge/choke. The author imparts the practical know-how and skills involved in the design and implementation of capacity and anti-surge control and safe-guarding logic. Furthermore, the book discusses real-time monitoring of solutions based on operational requirements, dynamic models for control of supply and demand, cause-and-effect relationships, the use of online and offline data, and collaboration with other engineering disciplines. The text facilitates support for the day-to-day operation of in-house open-platform compressor control applications, encouraging the growth of analytic skills in troubleshooting and fixing common problems; it also inculcates a basic understanding of the principles of third-party proprietary technologies and supports decision-making between in-house and third-party solutions.
Process engineers working in the oil-and-gas, refining, petrochemical, and chemical industries who bear responsibility for designing control solutions involving pumps and compressors will find this book an invaluable source of practical advice. This book also helps engineers working on design and maintenance of rotating equipment to understand the perspectives and requirements of process control.
Zielgruppe
Professional/practitioner
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Maschinenbau Triebwerkstechnik, Energieübertragung
- Technische Wissenschaften Verfahrenstechnik | Chemieingenieurwesen | Biotechnologie Verfahrenstechnik, Chemieingenieurwesen
- Technische Wissenschaften Elektronik | Nachrichtentechnik Nachrichten- und Kommunikationstechnik Regelungstechnik
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Produktionstechnik
Weitere Infos & Material
1 Introduction to Pumps and Compressors1.1 Type of Pumps and Compressors 1.1.1 Rotating Equipment 1.1.2 Pumps and Compressors 1.1.3 Centrifugal and Reciprocating Machines 1.1.4 Fans and Blowers 1.2 Applications of Pumps and Compressors 1.2.1 Liquid Pumping 1.2.2 Gas Compression 1.3 Operation and Control of Pumps and Compressors 1.3.1 Operating Requirements and Control Objectives 1.3.2 Overall Control Strategy 1.3.3 Process Control Technologies 1.3.4 Monitoring and Safeguarding 1.4 Practical Considerations 1.4.1 Process-Centric vs. Equipment-Centric Solutions 1.4.2 In-House vs. 3rd Party Solutions 1.5 Summary References
2 Characteristics of Pumps and Compressors 2.1 Basic Properties of Fluids 2.1.1 Basic Principles of Fluid Dynamics2.1.2 Basic Principles of Thermodynamics2.1.3 Gas Compression Process2.1.4 Liquid Transport Process 2.2 Description of Pumps and Compressors 2.2.1 Three Variables: Speed, Head, and Flow 2.2.2 Two Curves: Performance and Resistance Curves 2.2.3 One Point: Operating Point 2.2.4 † Other Variables and Curves 2.3 Behaviors of Dynamic Machines2.3.1 Relationship Among Head, Flow, and Speed 2.3.2 † Suction and Discharge Relationship 2.3.3 ‡ Euler’s Equation and Slope of Performance Curve 2.3.4 ‡ System Resistance and Slope of Resistance Curve 2.4 Surge and Choke Phenomena 2.4.1 Surge and Choke Points 2.4.2 Surge Line and Choke Line 2.5 Summary References
3 Operating Requirements and Control Objectives3.1 Operating Objectives and Requirements 3.2 Maintaining the Operating Point 3.2.1 Operating with Single Control Handle 3.2.2 Operation with Multiple Control Handles 3.2.3 † Capacity Turndown 3.3 Protecting the Operating Envelope 3.3.1 Operation Under Abnormal Operating Conditions 3.3.2 ‡ Flow in System Resistance Components 3.4 Transitioning Between Operating Modes 3.4.1 Startup of Centrifugal Machines 3.4.2 Shutdown of Centrifugal Machines 3.4.3 † Crippled Operation 3.5 Summary References
4 Overall Control Strategy 4.1 Overall Control Strategy 4.1.1 General Control Philosophy 4.1.2 Overall Control Objectives 4.1.3 Layered and Integrated Design 4.1.4 Migration from Proprietary to Open-platform Solutions 4.2 Regulatory Control: Capacity Control 4.2.1 Capacity Control Objectives 4.2.2 Process Dynamics and Cause-and-E?ect Relationships 4.2.3 Process Measurements and Controlled Variables4.2.4 Final Control Elements and Manipulated Variables 4.2.5 Capacity Control Algorithms 4.3 Protective Control: Anti-Surge Control 4.3.1 Protective Control Objectives 4.3.2 Process Dynamics for Operating Envelope 4.3.3 Measurements and Controlled Variables4.3.4 Recycle Valve and Manipulated Variables 4.3.5 Protective Control Algorithms 4.4 Control Integration and Optimization 4.4.1 Sequential Control: Mode Transition 4.4.2 Instrumented Safeguarding Against Failures 4.4.3 Online Performance Monitoring 4.4.4 † Integration of Capacity and Anti-Surge Control 4.4.5 ‡ Load Balancing and Optimization 4.5 Summary References
5 Invariant Coordinates and Surge Indicators 5.1 Inlet Conditions and Invariant Coordinate Systems 5.1.1 API Datasheet for Compressor 5.1.2 † Impact of Inlet Conditions5.1.3 Invariant Coordinate 5.2 Equivalent Coordinates 5.2.1 † Alternative Variables for Polytropic Head 5.2.2 † Alternative Variables for Volumetric Flow 5.2.3 † Equivalent Coordinate Systems 5.3 Surge Reference Line and Surge Indicators 5.3.1 Surge Reference Line 5.3.2 Surge Indicators 5.4 Calculation of Anti-surge Parameters 5.5 Summary References
6 Basic Control Schemes 6.1 Centrifugal Pumps 6.1.1 Capacity Control 6.1.2 Minimum and Maximum Flow Control 6.1.3 A Complete Control Design 6.2 Centrifugal Compressors 6.2.1 Capacity Control 6.2.2 Anti-Surge Control 6.2.3 Anti-surge Parameter Calculation 6.2.4 † Flowmeter Design6.2.5 Instrumented Safeguarding 6.2.6 A Complete Control Design 6.3 Reciprocating Pumps and Compressors 6.3.1 Capacity Control for Reciprocating Machines6.3.2 Protective Control for Reciprocating Machines 6.4 Practical Considerations 6.4.1 Speed of Response 6.4.2 † Sensitivity Analysis 6.5 SummaryReferences
7 Advanced Control Solutions 7.1 Integration Between Capacity and Anti-Surge Control7.1.1 Capacity Control Revisited 7.1.2 An Unintegrated Design 7.1.3 Integrated Design of Capacity and Anti-Surge Control 7.1.4 † Integrated Design with Feedforward Compensation 7.2 Load Balancing Control 7.2.1 † Load Balancing among Compressor Trains 7.2.2 ‡ Load Balancing Among Stages 7.3 A Fully Integrated Control Design 7.3.1 A Complete Solution for Compressor Control7.3.2 † Integration Between Control and Safeguarding 7.3.3 A Real-World Example 7.4 Multi-Machine Optimization 7.4.1 † Pumps and Compressors in Parallel 7.4.2 † Pumps and Compressors in Series 7.5 Implementation Considerations 7.5.1 Naming Convention 7.5.2 Manual vs. Automatic Operation 7.5.3 † Controller Con?gurations 7.6 Summary References
8 Commissioning, Startup, and Monitoring 8.1 Application Life Cycle 8.2 Commissioning 8.2.1 Factory Acceptance Test (FAT) 8.2.2 Site Acceptance Test (SAT) 8.3 Plant Startup 8.3.1 Incipient Surge Test 8.3.2 Pre-Startup 8.3.3 During Startup 8.3.4 Post-Startup 8.4 Performance Monitoring 8.4.1 Performance Indicators 8.4.2 Performance Visualization 8.5 Troubleshooting and Problem Solving 8.5.1 † Surge Detection 8.5.2 † Troubleshooting of Surge Control Scheme 8.6 Summary References
A Performance Analysis and Control Design with Software Tool A.1 Introduction A.1.1 Data Requirements A.1.2 The Work Process A.1.3 The CPACSSoftware Tool A.2 Data Preparation and Management A.2.1 Data format A.2.2 Source of Design Data A.2.3 Engineering Units A.3 Data Visualization and Validation A.3.1 Automatic Error Detection A.3.2 Visual Inspection A.4 Surge Parameter Calculation A.4.1 Anti-Surge Parameters Calculation A.4.2 Data Selection A.4.3 ASP Formula A.4.4 Real-time Data A.5 Summary References
Glossary
Index
