Compressors and Modern Process Applications
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Compressors and Modern Process Applications
Bloch, Heinz P.; Godse, Arvind
John Wiley & Sons Inc
10/2006
352
Dura
Inglês
9780471727927
15 a 20 dias
1092
Descrição não disponível.
Preface. Illustration Credits and Photo Acknowledgments.
PART I.
Chapter 1. Positive Displacement Compressors.
1.1 Reciprocating Compressors.
1.2 Major Components Described.
1.3 Comparison between Reciprocating and Centrifugal Compressors.
1.4 Series and Parallel Operation.
Chapter 2. Rotary Compressors as a Category.
2.1 Helical Screw Compressors.
2.2 Overview of Operating Principles and Basic Construction.
2.3 Considerations for Screw Compressor Staging.
2.4 Reasons for Using Screw Compressors.
2.5 Oil-Free Versus Oil-Flooded Twin-Screw Compressors.
2.6 Screw Compressor Volume Control.
2.7 Screw Compressor Auxiliaries.
2.8 Issues with H2S in All Gas Compressors.
2.9 Considerations for Upstream Separators.
Chapter 3. Understanding Centrifugal Process Gas Compressors.
3.1 Where Centrifugal Compressors Excel.
3.2 Centrifugal Compressors, Fans, or Blowers?
3.3 Centrifugal Compressor Configurations and Components.
Chapter 4. Power Transmission and Advanced Bearing Technology.
4.1 Couplings for Rotary Positive-Displacement and Centrifugal Compressors.
4.2 Magnetic Bearings for Compressor Rotors.
4.3 Externally Pressurized Bearings.
4.4 General Condition Monitoring of Process Gas Compressors.
4.5 Combining Troubleshooting and Continuous Monitoring of Dynamic Data for Critical Machinery.
Chapter 5. Centrifugal Compressor Performance.
5.1 Compression Processes and Efficiencies: Polytropic Versus Isothermal.
5.2 Specific Speed (Ns) and the Flow Coefficient (?).
5.3 Estimating Compressor Performance.
5.4 Controls.
5.5 Throughput Control Options.
Chapter 6. Testing.
6.1 Centrifugal Compressor Testing.
6.2 Types of Performance Tests.
6.3 The ASME Power Test Code (ASME PTC 10).
Chapter 7. Application Considerations.
7.1 Applications and Industry Sectors.
7.2 Air Separation Plants and Compressors for Instrument and Plant Air Services.
7.3 Natural Gas Processing Industry.
7.4 Offshore Industry.
7.5 Refining Industry.
7.6 Petrochemicals and Fertilizers.
7.7 Steel Industry.
7.8 Special Applications.
Chapter 8. Using API-617 as a Purchase Specification for Centrifugal Compressors.
8.1 Compressor Revamps.
PART II.
Segment 1: Gas Processing.
Segment 2: Refining Processes.
Segment 3: Petrochemical Processes.
References.
Index.
PART I.
Chapter 1. Positive Displacement Compressors.
1.1 Reciprocating Compressors.
1.2 Major Components Described.
1.3 Comparison between Reciprocating and Centrifugal Compressors.
1.4 Series and Parallel Operation.
Chapter 2. Rotary Compressors as a Category.
2.1 Helical Screw Compressors.
2.2 Overview of Operating Principles and Basic Construction.
2.3 Considerations for Screw Compressor Staging.
2.4 Reasons for Using Screw Compressors.
2.5 Oil-Free Versus Oil-Flooded Twin-Screw Compressors.
2.6 Screw Compressor Volume Control.
2.7 Screw Compressor Auxiliaries.
2.8 Issues with H2S in All Gas Compressors.
2.9 Considerations for Upstream Separators.
Chapter 3. Understanding Centrifugal Process Gas Compressors.
3.1 Where Centrifugal Compressors Excel.
3.2 Centrifugal Compressors, Fans, or Blowers?
3.3 Centrifugal Compressor Configurations and Components.
Chapter 4. Power Transmission and Advanced Bearing Technology.
4.1 Couplings for Rotary Positive-Displacement and Centrifugal Compressors.
4.2 Magnetic Bearings for Compressor Rotors.
4.3 Externally Pressurized Bearings.
4.4 General Condition Monitoring of Process Gas Compressors.
4.5 Combining Troubleshooting and Continuous Monitoring of Dynamic Data for Critical Machinery.
Chapter 5. Centrifugal Compressor Performance.
5.1 Compression Processes and Efficiencies: Polytropic Versus Isothermal.
5.2 Specific Speed (Ns) and the Flow Coefficient (?).
5.3 Estimating Compressor Performance.
5.4 Controls.
5.5 Throughput Control Options.
Chapter 6. Testing.
6.1 Centrifugal Compressor Testing.
6.2 Types of Performance Tests.
6.3 The ASME Power Test Code (ASME PTC 10).
Chapter 7. Application Considerations.
7.1 Applications and Industry Sectors.
7.2 Air Separation Plants and Compressors for Instrument and Plant Air Services.
7.3 Natural Gas Processing Industry.
7.4 Offshore Industry.
7.5 Refining Industry.
7.6 Petrochemicals and Fertilizers.
7.7 Steel Industry.
7.8 Special Applications.
Chapter 8. Using API-617 as a Purchase Specification for Centrifugal Compressors.
8.1 Compressor Revamps.
PART II.
Segment 1: Gas Processing.
Segment 2: Refining Processes.
Segment 3: Petrochemical Processes.
References.
Index.
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Preface. Illustration Credits and Photo Acknowledgments.
PART I.
Chapter 1. Positive Displacement Compressors.
1.1 Reciprocating Compressors.
1.2 Major Components Described.
1.3 Comparison between Reciprocating and Centrifugal Compressors.
1.4 Series and Parallel Operation.
Chapter 2. Rotary Compressors as a Category.
2.1 Helical Screw Compressors.
2.2 Overview of Operating Principles and Basic Construction.
2.3 Considerations for Screw Compressor Staging.
2.4 Reasons for Using Screw Compressors.
2.5 Oil-Free Versus Oil-Flooded Twin-Screw Compressors.
2.6 Screw Compressor Volume Control.
2.7 Screw Compressor Auxiliaries.
2.8 Issues with H2S in All Gas Compressors.
2.9 Considerations for Upstream Separators.
Chapter 3. Understanding Centrifugal Process Gas Compressors.
3.1 Where Centrifugal Compressors Excel.
3.2 Centrifugal Compressors, Fans, or Blowers?
3.3 Centrifugal Compressor Configurations and Components.
Chapter 4. Power Transmission and Advanced Bearing Technology.
4.1 Couplings for Rotary Positive-Displacement and Centrifugal Compressors.
4.2 Magnetic Bearings for Compressor Rotors.
4.3 Externally Pressurized Bearings.
4.4 General Condition Monitoring of Process Gas Compressors.
4.5 Combining Troubleshooting and Continuous Monitoring of Dynamic Data for Critical Machinery.
Chapter 5. Centrifugal Compressor Performance.
5.1 Compression Processes and Efficiencies: Polytropic Versus Isothermal.
5.2 Specific Speed (Ns) and the Flow Coefficient (?).
5.3 Estimating Compressor Performance.
5.4 Controls.
5.5 Throughput Control Options.
Chapter 6. Testing.
6.1 Centrifugal Compressor Testing.
6.2 Types of Performance Tests.
6.3 The ASME Power Test Code (ASME PTC 10).
Chapter 7. Application Considerations.
7.1 Applications and Industry Sectors.
7.2 Air Separation Plants and Compressors for Instrument and Plant Air Services.
7.3 Natural Gas Processing Industry.
7.4 Offshore Industry.
7.5 Refining Industry.
7.6 Petrochemicals and Fertilizers.
7.7 Steel Industry.
7.8 Special Applications.
Chapter 8. Using API-617 as a Purchase Specification for Centrifugal Compressors.
8.1 Compressor Revamps.
PART II.
Segment 1: Gas Processing.
Segment 2: Refining Processes.
Segment 3: Petrochemical Processes.
References.
Index.
PART I.
Chapter 1. Positive Displacement Compressors.
1.1 Reciprocating Compressors.
1.2 Major Components Described.
1.3 Comparison between Reciprocating and Centrifugal Compressors.
1.4 Series and Parallel Operation.
Chapter 2. Rotary Compressors as a Category.
2.1 Helical Screw Compressors.
2.2 Overview of Operating Principles and Basic Construction.
2.3 Considerations for Screw Compressor Staging.
2.4 Reasons for Using Screw Compressors.
2.5 Oil-Free Versus Oil-Flooded Twin-Screw Compressors.
2.6 Screw Compressor Volume Control.
2.7 Screw Compressor Auxiliaries.
2.8 Issues with H2S in All Gas Compressors.
2.9 Considerations for Upstream Separators.
Chapter 3. Understanding Centrifugal Process Gas Compressors.
3.1 Where Centrifugal Compressors Excel.
3.2 Centrifugal Compressors, Fans, or Blowers?
3.3 Centrifugal Compressor Configurations and Components.
Chapter 4. Power Transmission and Advanced Bearing Technology.
4.1 Couplings for Rotary Positive-Displacement and Centrifugal Compressors.
4.2 Magnetic Bearings for Compressor Rotors.
4.3 Externally Pressurized Bearings.
4.4 General Condition Monitoring of Process Gas Compressors.
4.5 Combining Troubleshooting and Continuous Monitoring of Dynamic Data for Critical Machinery.
Chapter 5. Centrifugal Compressor Performance.
5.1 Compression Processes and Efficiencies: Polytropic Versus Isothermal.
5.2 Specific Speed (Ns) and the Flow Coefficient (?).
5.3 Estimating Compressor Performance.
5.4 Controls.
5.5 Throughput Control Options.
Chapter 6. Testing.
6.1 Centrifugal Compressor Testing.
6.2 Types of Performance Tests.
6.3 The ASME Power Test Code (ASME PTC 10).
Chapter 7. Application Considerations.
7.1 Applications and Industry Sectors.
7.2 Air Separation Plants and Compressors for Instrument and Plant Air Services.
7.3 Natural Gas Processing Industry.
7.4 Offshore Industry.
7.5 Refining Industry.
7.6 Petrochemicals and Fertilizers.
7.7 Steel Industry.
7.8 Special Applications.
Chapter 8. Using API-617 as a Purchase Specification for Centrifugal Compressors.
8.1 Compressor Revamps.
PART II.
Segment 1: Gas Processing.
Segment 2: Refining Processes.
Segment 3: Petrochemical Processes.
References.
Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
