EBOOK - Plastic Piping Handbook - Full Edition (David Willoughby)
8 thg 9, 2025 | 13:53

EBOOK - Plastic Piping Handbook - Full Edition (David Willoughby)



Sổ tay về ống nhựa (David Willoughby)


Written by expert David Willoughby, a 20-year veteran in the field, Plastic Piping Handbook is a one-of-a-kind, comprehensive guide to the durable, economical piping solution used today in 90 percent of low-pressure liquid and natural gas installations. You get the facts you need on a full range of vital topics, from pipe selection to pipeline purging and drying, to leak detection. This incomparable resource features codes and specs for gas and water transmission, inspection and testing procedures, and provides you with plenty of charts, data sheets, and tables. You’ll find at your fingertips hundreds of pages of clear, practical guidance to help you:



CONTENTS:


PREFACE

ABOUT THE AUTHOR

View sub-sections

1 GENERAL INFORMATION

1.1 INTRODUCTION

1.2 HISTORY OF PLASTIC PIPE MATERIALS

1.3 COMMON APPLICATIONS

1.4 DEFINITIONS AND ABBREVIATIONS

1.5 ACRONYMS AND ABBREVIATIONS

1.6 PLASTIC PIPING CODES AND STANDARDS

View sub-sections

2 PLASTIC PIPING CHARACTERISTICS

2.1 ADVANTAGES AND LIMITATIONS OF PLASTIC PIPING

2.2 THERMOPLASTIC PIPING MATERIALS

2.3 PLASTIC PIPING COMPONENTS

View sub-sections

3 FLUID FLOW

3.1 GENERAL

3.2 LIQUID FLOW

3.3 COMPRESSIBLE GAS FLOW

View sub-sections

4 GENERAL DESIGN PROCEDURES

4.1 INTRODUCTION

4.2 DESIGN METHODOLOGY

4.3 DRAWINGS

4.4 DESIGN BASES

4.5 SERVICE CONDITIONS

4.6 LOADING CONDITIONS

4.7 PIPING LAYOUT

4.8 COMPUTER AIDED DRAFTING AND DESIGN

4.9 PRELIMINARY DESIGN DATA

4.10 PIPELINE LIFE REQUIREMENTS

4.11 FLOW REQUIREMENTS

4.12 INSTALLATION CONSIDERATIONS

4.13 DESIGN CONSIDERATIONS FOR PLASTIC PIPING SYSTEMS

4.14 PIPING SUPPORT AND BURIAL

4.15 GENERAL DESIGN CONSIDERATIONS

4.16 SYSTEM FLOW REQUIREMENTS

4.17 PRESSURE LOSS IN FITTINGS

4.18 GRAVITY FLOW

4.19 SLIPLINING FLOW CAPACITY

4.20 GAS FLOW

4.21 LIFE EXPECTANCY

4.22 SYSTEM PRESSURE

4.23 POSITIVE PRESSURE PIPELINES

4.24 TRANSITION CONNECTIONS

4.25 DESIGN OF COLLAR

4.26 DESIGN CONSIDERATIONS FOR VARIOUS THERMOPLASTIC PIPE MATERIALS

View sub-sections

5 ABOVE GROUND PIPE DESIGN

5.1 RECEIVING MATERIALS

5.2 GENERAL ABOVE-GROUND RECOMMENDATIONS

5.3 POLYETHYLENE PIPE

5.4 EXTERNAL DAMAGE

5.5 INSTALLING PE PIPE ON GRADE

5.6 ANCHORED PIPE RUNS

5.7 INSTALLING PE PIPE ABOVE GRADE

5.8 FOLLOWING INSTRUCTIONS

View sub-sections

6 BURIED PIPE DESIGN

6.1 PRELIMINARY WORK

6.2 DIGGING

6.3 THE BED

6.4 PLACING PIPE

6.5 THERMAL CONTRACTION

6.6 AVOIDING BENDING AND STRESS

6.7 THRUST BLOCKS

6.8 VERTICAL PIPE SECTIONS

6.9 PLOWING

6.10 BACKFILLING

6.11 GENERAL DESIGN PROCEDURE

6.12 GROUNDWATER

6.13 MANHOLES

6.14 DESIGNING FOR A WATER ENVIRONMENT

6.15 UNCONSTRAINED BUCKLING

6.16 DIFFERENT TYPES OF PIPE

View sub-sections

7 PIPE HANDLING AND CONSTRUCTION

7.1 PVC PIPE

7.2 SOLVENT-WELDED JOINTS

7.3 GASKET JOINTS

7.4 TRENCH INSTALLATION

7.5 POLYETHYLENE PIPE

7.6 PIPE-JOINING PROCEDURES

7.7 CPVC PLASTIC PIPE

7.8 OTHER TYPES

View sub-sections

8 HORIZONTAL DIRECTIONAL DRILLING

8.1 ADVANTAGES OF HDD

8.2 HDD PROCESS

8.3 HDD CONSIDERATIONS

8.4 HDD SITE CHARACTERIZATION

8.5 DRILLED PATH DESIGN

8.6 CONSTRUCTION MONITORING

8.7 HDD PERFORMANCE

8.8 PIPE INSTALLATION

8.9 HDD STRESSES AND FORCES

8.10 HDD DESIGN CONSIDERATIONS FOR PLASTIC PIPE

8.11 GUIDELINES AND SPECIFICATIONS FOR INSTALLATION BY HDD TECHNOLOGY

8.12 SITE EVALUATION

8.13 GLOSSARY

View sub-sections

9 CHEMICAL RESISTANCE OF PLASTICS AND ELASTOMERS

9.1 Chemical Resistance of Plastics and Elastomers Used in Pipeline Construction

View sub-sections

10 SLIPLINING SEWERS

10.1 PREPARATION

10.2 BLOCKAGES

10.3 INSTALLATION

10.4 GROUTING

10.5 CONNECTIONS

10.6 BACKFILLING

10.7 COST EFFECTIVENESS

View sub-sections

11 TESTING

11.1 LOW-PRESSURE TEST

11.2 HIGH-PRESSURE TEST

11.3 UNDERGROUND PIPING

11.4 TEST CAPS

11.5 ABOVE GROUND TESTS

View sub-sections

12 PROTECTING PUBLIC SAFETY THROUGH EXCAVATION DAMAGE PREVENTION

12.1 INTRODUCTION

12.2 OVERVIEW OF SUBSURFACE INFRASTRUCTURE AND REGULATORY AND LEGISLATIVE INITIATIVES

12.3 REGULATORY AND LEGISLATIVE INITIATIVES

12.4 DAMAGE PREVENTION PRACTICES

12.5 MANDATORY PARTICIPATION

12.6 ONE-CALL NOTIFICATION SYSTEM

12.7 EFFECTIVE SANCTIONS

12.8 EMPLOYEE QUALIFICATIONS AND TRAINING

12.9 ACCURACY OF INFORMATION REGARDING BURIED FACILITIES

12.10 VERTICAL/DEPTH LOCATION

12.11 DIRECTIONAL BORING/TRENCHLESS TECHNOLOGY

12.12 MAPPING

12.13 SUBSURFACE UTILITY ENGINEERING

12.14 SYSTEM PERFORMANCE MEASURES

12.15 RISK EXPOSURE

12.16 ACCIDENT REPORTING REQUIREMENTS OF RSPA

12.17 ACCIDENT CAUSES

12.18 CONCLUSIONS

12.19 RECOMMENDATIONS

View sub-sections

13 BRITTLE-LIKE CRACKING IN PLASTIC PIPE FOR GAS SERVICE

13.1 INTRODUCTION

13.2 INVESTIGATION

13.3 CONCLUSIONS

13.4 RECOMMENDATIONS

SPECIFICATIONS FOR MATERIALS AND CONSTRUCTION FOR A NATURAL GAS SYSTEM

TRANSPORTATION OF NATURAL OR OTHER GAS BY PIPELINE: MINIMUM FEDERAL SAFETY STANDARDS

PLASTIC PIPING SYSTEMS COMPONENTS

PLASTIC PIPE FITTINGS

GLOSSARY





Sổ tay về ống nhựa (David Willoughby)


Written by expert David Willoughby, a 20-year veteran in the field, Plastic Piping Handbook is a one-of-a-kind, comprehensive guide to the durable, economical piping solution used today in 90 percent of low-pressure liquid and natural gas installations. You get the facts you need on a full range of vital topics, from pipe selection to pipeline purging and drying, to leak detection. This incomparable resource features codes and specs for gas and water transmission, inspection and testing procedures, and provides you with plenty of charts, data sheets, and tables. You’ll find at your fingertips hundreds of pages of clear, practical guidance to help you:



CONTENTS:


PREFACE

ABOUT THE AUTHOR

View sub-sections

1 GENERAL INFORMATION

1.1 INTRODUCTION

1.2 HISTORY OF PLASTIC PIPE MATERIALS

1.3 COMMON APPLICATIONS

1.4 DEFINITIONS AND ABBREVIATIONS

1.5 ACRONYMS AND ABBREVIATIONS

1.6 PLASTIC PIPING CODES AND STANDARDS

View sub-sections

2 PLASTIC PIPING CHARACTERISTICS

2.1 ADVANTAGES AND LIMITATIONS OF PLASTIC PIPING

2.2 THERMOPLASTIC PIPING MATERIALS

2.3 PLASTIC PIPING COMPONENTS

View sub-sections

3 FLUID FLOW

3.1 GENERAL

3.2 LIQUID FLOW

3.3 COMPRESSIBLE GAS FLOW

View sub-sections

4 GENERAL DESIGN PROCEDURES

4.1 INTRODUCTION

4.2 DESIGN METHODOLOGY

4.3 DRAWINGS

4.4 DESIGN BASES

4.5 SERVICE CONDITIONS

4.6 LOADING CONDITIONS

4.7 PIPING LAYOUT

4.8 COMPUTER AIDED DRAFTING AND DESIGN

4.9 PRELIMINARY DESIGN DATA

4.10 PIPELINE LIFE REQUIREMENTS

4.11 FLOW REQUIREMENTS

4.12 INSTALLATION CONSIDERATIONS

4.13 DESIGN CONSIDERATIONS FOR PLASTIC PIPING SYSTEMS

4.14 PIPING SUPPORT AND BURIAL

4.15 GENERAL DESIGN CONSIDERATIONS

4.16 SYSTEM FLOW REQUIREMENTS

4.17 PRESSURE LOSS IN FITTINGS

4.18 GRAVITY FLOW

4.19 SLIPLINING FLOW CAPACITY

4.20 GAS FLOW

4.21 LIFE EXPECTANCY

4.22 SYSTEM PRESSURE

4.23 POSITIVE PRESSURE PIPELINES

4.24 TRANSITION CONNECTIONS

4.25 DESIGN OF COLLAR

4.26 DESIGN CONSIDERATIONS FOR VARIOUS THERMOPLASTIC PIPE MATERIALS

View sub-sections

5 ABOVE GROUND PIPE DESIGN

5.1 RECEIVING MATERIALS

5.2 GENERAL ABOVE-GROUND RECOMMENDATIONS

5.3 POLYETHYLENE PIPE

5.4 EXTERNAL DAMAGE

5.5 INSTALLING PE PIPE ON GRADE

5.6 ANCHORED PIPE RUNS

5.7 INSTALLING PE PIPE ABOVE GRADE

5.8 FOLLOWING INSTRUCTIONS

View sub-sections

6 BURIED PIPE DESIGN

6.1 PRELIMINARY WORK

6.2 DIGGING

6.3 THE BED

6.4 PLACING PIPE

6.5 THERMAL CONTRACTION

6.6 AVOIDING BENDING AND STRESS

6.7 THRUST BLOCKS

6.8 VERTICAL PIPE SECTIONS

6.9 PLOWING

6.10 BACKFILLING

6.11 GENERAL DESIGN PROCEDURE

6.12 GROUNDWATER

6.13 MANHOLES

6.14 DESIGNING FOR A WATER ENVIRONMENT

6.15 UNCONSTRAINED BUCKLING

6.16 DIFFERENT TYPES OF PIPE

View sub-sections

7 PIPE HANDLING AND CONSTRUCTION

7.1 PVC PIPE

7.2 SOLVENT-WELDED JOINTS

7.3 GASKET JOINTS

7.4 TRENCH INSTALLATION

7.5 POLYETHYLENE PIPE

7.6 PIPE-JOINING PROCEDURES

7.7 CPVC PLASTIC PIPE

7.8 OTHER TYPES

View sub-sections

8 HORIZONTAL DIRECTIONAL DRILLING

8.1 ADVANTAGES OF HDD

8.2 HDD PROCESS

8.3 HDD CONSIDERATIONS

8.4 HDD SITE CHARACTERIZATION

8.5 DRILLED PATH DESIGN

8.6 CONSTRUCTION MONITORING

8.7 HDD PERFORMANCE

8.8 PIPE INSTALLATION

8.9 HDD STRESSES AND FORCES

8.10 HDD DESIGN CONSIDERATIONS FOR PLASTIC PIPE

8.11 GUIDELINES AND SPECIFICATIONS FOR INSTALLATION BY HDD TECHNOLOGY

8.12 SITE EVALUATION

8.13 GLOSSARY

View sub-sections

9 CHEMICAL RESISTANCE OF PLASTICS AND ELASTOMERS

9.1 Chemical Resistance of Plastics and Elastomers Used in Pipeline Construction

View sub-sections

10 SLIPLINING SEWERS

10.1 PREPARATION

10.2 BLOCKAGES

10.3 INSTALLATION

10.4 GROUTING

10.5 CONNECTIONS

10.6 BACKFILLING

10.7 COST EFFECTIVENESS

View sub-sections

11 TESTING

11.1 LOW-PRESSURE TEST

11.2 HIGH-PRESSURE TEST

11.3 UNDERGROUND PIPING

11.4 TEST CAPS

11.5 ABOVE GROUND TESTS

View sub-sections

12 PROTECTING PUBLIC SAFETY THROUGH EXCAVATION DAMAGE PREVENTION

12.1 INTRODUCTION

12.2 OVERVIEW OF SUBSURFACE INFRASTRUCTURE AND REGULATORY AND LEGISLATIVE INITIATIVES

12.3 REGULATORY AND LEGISLATIVE INITIATIVES

12.4 DAMAGE PREVENTION PRACTICES

12.5 MANDATORY PARTICIPATION

12.6 ONE-CALL NOTIFICATION SYSTEM

12.7 EFFECTIVE SANCTIONS

12.8 EMPLOYEE QUALIFICATIONS AND TRAINING

12.9 ACCURACY OF INFORMATION REGARDING BURIED FACILITIES

12.10 VERTICAL/DEPTH LOCATION

12.11 DIRECTIONAL BORING/TRENCHLESS TECHNOLOGY

12.12 MAPPING

12.13 SUBSURFACE UTILITY ENGINEERING

12.14 SYSTEM PERFORMANCE MEASURES

12.15 RISK EXPOSURE

12.16 ACCIDENT REPORTING REQUIREMENTS OF RSPA

12.17 ACCIDENT CAUSES

12.18 CONCLUSIONS

12.19 RECOMMENDATIONS

View sub-sections

13 BRITTLE-LIKE CRACKING IN PLASTIC PIPE FOR GAS SERVICE

13.1 INTRODUCTION

13.2 INVESTIGATION

13.3 CONCLUSIONS

13.4 RECOMMENDATIONS

SPECIFICATIONS FOR MATERIALS AND CONSTRUCTION FOR A NATURAL GAS SYSTEM

TRANSPORTATION OF NATURAL OR OTHER GAS BY PIPELINE: MINIMUM FEDERAL SAFETY STANDARDS

PLASTIC PIPING SYSTEMS COMPONENTS

PLASTIC PIPE FITTINGS

GLOSSARY



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