Pipeline Toolbox V17 –Edition for Gas Service - Technical Toolboxes

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Pipeline Toolbox V17 –Edition for Gas Service (Included Modules, Applications & References) Applications Description 1. Pipeline Facilities 1.1 Pipeline Compressors  Centrifugal Compressor-Adiabatic Head  Centrifugal Compressor-Required Adiabatic Horsepower  Centrifugal Compressor- Required Polytropic Horsepower  Centrifugal Compressor-Fan Laws  Reciprocating Compressor-Cylinder Equivalent Capacity & HP  Compressor Station Piping-Pipe Diameter  Compressor Station Piping-Pipe Wall Thickness  Compressor Station Piping-Gas Velocity  Local Atmospheric Pressure 1.2 Reinforcement of Welded Branch Connection 1.3 Regulator & Station Piping Sizing 1.4 Orifice Meter Sizing & Volume Flow Rate Calculations 1.5 Relief Valve Sizing 1.6 Relief Valve - Reaction Force in an Open Discharge System 1.7 Hot-Tap Sizing 2. Hydraulics 2.1 Gas Pipeline Hydraulics  Panhandle A & B  Colebrook-White  Weymouth  AGA Fully Turbulent Flow  IGT Distribution Equation  Mueller High/Low Pressure  Pittsburgh  Spitzglass

3. 3.1 3.2 3.3 3.4 3.5 3.6

Steel Pipe Design & Stress Analysis Design Pressure-Steel Pipe Wall Thickness- Straight Steel Pipe Design Pressure - Polyethylene Pipe Wall Thickness - Polyethylene Pipe Flume Design - Rational Method Restrained PL Stress Analysis

Reference, Standard or Document Source 

 

Engineering Data Book, Volume-I, GPSA, 10th Edition Compressor Station Operation, Book T-2, GEOP, American Gas Association CFR Part 192 ASME B31.8



American Gas Association, Report No.3



ASME B31.8



 A.G.A. GEOP Book M-1  A.G.A Gas Measurement Manual, Part 9 AGA-3, Orifice Metering of Natural Gas and Other Related Hydrocarbons  ASME - Boiler and Pressure Vessel Code, Section VIII  API RP 520  API RP 520 Williams Gas Pipeline - Procedure      

IGT Report #10 Project NB-13 AGA Steady State Flow Computation Manuel For NG Transmission Lines Pipeline Design for Hydrocarbons Gases & Liquids, ASCE DOT/TSI Gas Distribution Handbook Weymouth, T. R., Problems in Natural Gas Engineering Turbulent Flow in Pipes with Particular Reference to the Transition Region Between the Smooth and Rough Pipe Laws, Colebrook, C.F.

DOT Part 195 & ASME B31.8 ASME B31.4 API 15LE API 15LE ASCE, FHWA  ASME B31.8

3.7 Unrestrained PL Stress Analysis



3.8 Buoyancy Analysis & Concrete Coating Requirements 3.9 Buoyancy Analysis & Concrete Weights Spacing

A.G.A. GEOP Series, Book T-1

3.10 Pipe Anchor Force Analysis 3.11 Maximum Impact Load & Penetration Depth 3.12 Internal Pressure - % SMYS 3.13 Hoop Stress & Longitudinal Stress 3.14 Requirements to Move Unpressured Pipe 3.15 Bending Stress & Deflection 3.16 Maximum Allowable Pipe Span Length 3.17 Bending Stress Caused by Fluid Flowing Around Pipeline 3.18 Linear Thermal Pipeline Expansion 3.19 Thrust at Blow-Off 3.20 Installment of Pipelines by Horizontal Directional Drilling 3.21 Blasting Analysis 3.22 Longitudinal Stress in Movement of In-Service Pipelines (API 1117) 4. Steel Pipeline Crossings 4.1 Steel Pipelines Crossing Railroads & Highways

ASME B31.8

Pipeline Geo-Environmental Design and Geohazard Management, ASME, 2008  Pipe Line Industry, Wilbur, W.E., February 1963  Theory of Elasticity, Timoshenko, S. Guidelines for Design of Buried Steel Pipe – American Lifelines Alliance DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT Alert Notice 1/7/1992 DOT/TSI Gas Distribution Handbook Williams Gas Pipeline Documentation DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook PRCI Report PR-227-9424 AGA "Pipeline Response to Buried Explosive Detonations API RP 1117 - Movement of In-Service Pipeline, Second Edition, August 1966 API RP-1102 

ASME B31.8



Evaluation of Buried Pipe Encroachments, BATTELLE, Petroleum Technology Center, 1983 ASME B31.8

4.2 Wheel Load Analysis

 4.3 Track Load Analysis 

4.4 Design of Uncased Crossings

Evaluation of Buried Pipe Encroachments, BATTELLE, Petroleum Tech Center, 1983 GPTC Guide for Transmission and Distribution Systems, A.G.A., Appendix G-192-15

5. Accidental Releases from Gas Pipelines and Pipeline Rupture  5.1 Accidental Gas Release Rate from a “Small” Hole in Pipeline -------------------------------------------------------5.2 Accidental Gas Release Rate from a Single-end, Double-end – Full Bore Pipeline Rupture

  

Handbook of Chemical Hazard Analysis Procedures, US FEMA, US DOT, EPA Risk Management Program Guidance for Offsite Consequence Analysis, US EPA US DOT OPS –Final Reports: TTO13 & TTO 14 API Recommended Practice 520, Sizing, Selection, and Installation of Pressure-Relieving Devices in Refineries, Part I, American Petroleum Institute,

Page 2 of 5

 

 5.3 Natural Gas Pipeline Rupture Analysis – Depth, Radius and Width of Crater. Includes the following models:   

Crane Limited, Flow of Fluids through Valves, Fittings, and Pipe, Technical Paper No. 410-C, Crane Engineering Division Bosch, C.J.H. van den and N.J. Duijm, The Netherlands Organization of Applied Scientific Research. Methods for the Calculation of Physical Effects, CPR 14E: Part (TNO Yellow Book), Ramskill, P.K., Discharge Rate Calculation Methods or Use in Plant Safety Assessments, Safety and Reliability

PRCI Report L51861, Line Rupture and the Spacing of Parallel Lines (Battelle), NEN 3651, NV GASUNIE Report TR/T 97.R.2515

GASUNIE MODEL NEN 3651 MODEL - RADIUS OF THE CRATER PRCI/GASUNIE/BATTELLE COMBINED MODEL

6. External Corrosion Direct Assessment Toolset 6.1 Remaining Life of Corroded PL & Re-assessment Interval for ECDA Region 6.2 Potential Impact Radius (PIR) 6.3 DCVG - % IR Drop 7. Pipeline Testing 7.1 Pipeline Hydrostatic Testing 7.2 Alternative Acceptance Standards for Girth Welds 7.3 Pipeline Pressure Testing – Maximum Pressure Drop 7.4 Pipeline Blowdown – Time/Volume Lost 7.5 Purging Calculations 7.6 Pack in Pipeline RSTRENG V5 – Evaluating Remaining Strength of Externally Corroded Pipe 8. Pipeline Corrosion 8.1 Evaluation of MAOP in Corroded Areas 8.2 Maximum Allowable Longitudinal Extent of Corrosion 8.3 Rate of Electrical Current Flow Through the Corrosion Cell 8.4 Relationship Resistance & Resistivity 8.5 Electrolyte Resistance from Surface of an Electrode to any Distance

GTI Report GRI-04/0093.6, NACE RP 0502, ASME B31.4, ASME B31.8, ASME B31.8S Potential Impact Radius Formula for Flammable Gases Other then Natural Gas”, DOT/OPS TTO Number 13 Final Report CATH- TECH, Cathodic Technology Limited  

DOT/TSI Gas Distribution Handbook Pipeline Rules of Thumb Handbook, 3rd Edition

API RP 1104 Appendix A (Option-2) DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook Pipeline Research Council International (PRCI)

ASME B31G ASME B31G DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook Page 3 of 5

8.6 Corrosion Current - Ohm’s Law 8.7 Electrical Resistance of a Conductor 9. Cathodic Protection 9.1 Estimated Weight of a Magnesium Anode 9.2 Resistance to Earth of an Impressed Anode Ground Bed 9.3 Rudenberg’s Formula for the Placement of an Anode Ground Bed 9.4 Resistance to Earth of a Single Vertical Anode 9.5 Resistance to Earth of Multiple Vertical Anodes 9.6 Resistance to Earth of a Single Horizontal Anode 9.7 Required Number of Anodes & the Total Current Requirement 9.8 Power Consumption of a Cathodic Protection Rectifier 9.9 Cathodic Protection Attenuation Calculation 10. Polyethylene (PE) Pipe Design & Stress Analysis 10.1 Distributed Static Surcharge Load on Buried PE Pipe

10.2 Surcharge Live Load on Buried PE Pipe & Pipeline Crossings 10.2.1 Aircraft Load on Buried PE Pipe

10.2.2 AASHTO Std. H20 Vehicular Loading For Paved & Flexible/Unpaved Surfaces 10.2.3 Off Road Crossing-Concentrated Point Load Single Wheel 10.2.4 Off Road Crossing-Concentrated Point Load Multiple Wheel 10.2.5 Off Road Crossing- Concentrated Point Load Not over Buried PE Pipe 10.2.6 Off Road Crossing-Unpaved Road Only (Timoshenko Equation) 10.2.7 Cooper E-80 Railroad Load on Buried PE Pipe 10.3 Installation of Polyethylene Pipelines by Horizontal Directional Drilling(HDD) 10.3.1 PE Pipe – Pull Force & Installation Stress Analysis 10.3.2 HDD PE Pipe - ATL Allowable Tensile

DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion ISO 15589 – Cathodic Protection Pipeline Transportation Systems

1. Soil Engineering, Spangler, M.G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins & Loren 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc.

1. Soil Engineering, Spangler, M.G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins, R.K, and Loren, R, A, 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc. 1. Soil Engineering, Spangler, .G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins, R.K, and Loren, R, A, 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc. 4. Modulus of Soil Reaction for Buried Flexible Pipe, ASCE Geotechnical Journal Vol. 103, Howard, A.K. 5. Evaluation of Modulus of Soil Reaction E’ and Its Variation with Depth, Report No.UCB/GT/82-02, Duncan,JM/Hartley,JD, Univ. of Calif, Berkeley

ASTM F 1962 05 ASTM F 1962 - 05 and ASTM F 1804 - 08 Page 4 of 5

Load During Pull-In Installation 10.3.3 PE Pipe - Post-Installation Stress Analysis 11. Data Bases 11.1 Physical Properties of Fluids 11.2 Pipe Databases for Steel, Polyethylene & Custom Pipe

ASTM F 1962 - 05

British Gas - GasVLE  



Spec. for Line Pipe, API 5L Std Steel Pipe, ASTM B36.10 Spec. for Polyethylene Line Pipe, API 15LE

12. Gas Properties Calculations 12.1 Gas Mixture Properties 12.2 Local Atmospheric Pressure 13. Utilities 13.1 Gas Mixture Properties 13.2 Physical Properties of Fluids 13.3 Document Management Module 13.4 Applications Integration Module

GPA Standard 2172, AGA Report No. 8,API MPMS 14.2 Various Application developed by TTI Application developed by TTI

13.5 Units Conversion Module

 

14. Standards/Regulations/Forms 14.1 Pipeline Safety Laws 14.2 US DOT Regulations 14.3 US DOT Forms & Instructions for Reporting 14.4 Canadian Pipeline Standards

AGA-8 & API MPMS Chapter 14.5 AGA Part 3

International System of Units (SI) ASTM Metric Guide E380-72E ANSI Standard Z201.1

 Updated with the latest 49 CFR - Parts 190-195 US Department of Transportation US Department of Transportation 49 CFR - Parts 190-195 US Department of Transportation 49 CFR - Parts 190-195 Internet link provided to CSA website.

Page 5 of 5

Pipeline Toolbox V17 –Edition for Liquid Service (Included Modules, Applications & References) Applications Description 1. Pipeline Facilities 1.1 Pipeline Pumps  Required Pump Horsepower  Affinity Laws-Impeller Diameter Change Only  Pump Specific Speed  Suction Specific Speed  Temperature Rise Due to Pumping  Reciprocating Pump-Displacement & Actual Capacity  Reciprocating Pump-Piston Rod Load  Reciprocating Pump-Acceleration Head  Pump Station Piping-Pipe Diameter  Pump Station Piping-Pipe Wall Thickness  Pump Station Piping-Average Flow Velocity  Local Atmospheric Pressure Calculation 1.2 Reinforcement of Welded Branch Connection o Relief Valves o Valves Requiring/Not Requiring Liquid Capacity Certification o Orifice Area Sizing o Discharge Flow Sizing o Relief Valve - Reaction Force in an Open Discharge System 2. Hydraulics 2.1 Liquid Pipeline Hydraulics o Darcy-Weisbach o Colebrook-White o Hazen-Williams o Heltzel o T.R. Aude o Shell/MIT 2.2 Darcy-Weisbach Pressure Drop Per Mile

2.3 Surge Analysis – Water Hammer

3. PL Design & Stress Analysis 3.1 Design Pressure-Steel Pipe

Reference, Standard or Document Source    

Engineering Data Book, Vol-1, Gas Processors Suppliers Association, Tenth Edition Pump Handbook, Fourth Edition, McGraw-Hill Professional API RP 14E American Gas Association, Report No.3

ASME B31.4 - Art. 404.3.1(c)

ASME Section VIII and API RP 520 Part I - Sizing and Selection, Sixth Edition, March 1993 Std Handbook for Mechanical Engineers, McGraw-Hill API RP 520, Sixth Edition.

o o o

Pipeline Design for Hydrocarbons Gases & Liquids, ASCE, Committee on Pipeline Planning Hydraulics for Pipeliners, Volume I: Fundamentals, Second Edition, C.B. Lester Hydraulics of Pipeline Systems, Bruce E. Larock, Ronald Jeppson, Gary Watters

Flow of fluids, Technical Paper No.410, CRANE Hydraulics for Pipeliners, Volume I: Fundamentals, Second Edition, C.B. Lester Hydraulics of Pipeline Systems, Bruce E. Larock, Ronald W. Jeppson, Gary Z. Watters Streeter, V.L. and Wylie, E.B. (1967), Hydraulic Transients, McGraw-Hill, Streeter, V.L. (1969), Waterhammer Analysis. Jour. Hyd. Div., ASCE., Vol. 88, HY3, pp79-113 Streeter, V.L. (1972), Unsteady Flow Calculations by Numerical Methods, ASME Journal of Basic Eng., pp 457-466 J. P Tullis (1989), Hydraulic Pipelines, John Wiley & Sons

DOT Part 195 & ASME B31.4

3.2 Wall Thickness- Straight Steel Pipe

ASME B31.4

3.3 Design Pressure-Polyethylene Pipe 3.4 Wall Thickness - Polyethylene Pipe 3.5 Flume Design - Rational Method 3.6 Restrained PL Stress Analysis

API 15LE API 15LE ASCE, FHWA ASME B31.4

3.7 Unrestrained PL Stress Analysis

ASME B31.4

3.8 Buoyancy Analysis & Concrete Coating Requirements 3.9 Buoyancy Analysis & Concrete Weights Spacing

A.G.A. GEOP Series, Book T-1

3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17

Pipe Anchor Force Analysis Maximum Impact Load & Penetration Depth Internal Pressure - % SMYS Hoop Stress & Longitudinal Stress Requirements to Move Unpressured Pipe Bending Stress & Deflection Maximum Allowable Pipe Span Length Bending Stress Caused by Fluid Flowing Around Pipeline 3.18 Linear Thermal Pipeline Expansion 3.19 3.19 Thrust at Blow-Off 3.20 Installment of Pipelines by Horizontal Directional Drilling 3.21. Longitudinal Stress in Movement of In-Service Pipelines (API 1117) 3.22 Blasting Analysis

Pipeline Geo-Environmental Design and Geohazard Management, ASME, 2008 Pipe Line Industry, Wilbur, W.E., February 1963 Theory of Elasticity, Timoshenko, S. DOT Code Part 192 DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT Alert Notice 1/7/1992 DOT/TSI Gas Distribution Handbook Williams Gas Pipeline Documentation DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook PRCI Report PR-227-9424 API RP 1117 - Movement of In-Service Pipeline, Second Edition, August 1966 A.G.A "Pipeline Response to Buried Explosive Detonations

4. Steel Pipeline Crossings 4.1 Steel Pipelines Crossing Railroads & Highways

API RP-1102 

ASME B31.4 - Art. 404.3.1(c)



Evaluation of Buried Pipe Encroachments, BATTELLE, Petroleum Tech Center, 1983 ASME B31.4 - Art. 404.3.1(c)

4.2 Wheel Load Analysis

 4.3 Track Load Analysis 

4.4 Design of Uncased Crossings

Evaluation of Buried Pipe Encroachments, BATTELLE, Petroleum Tech Center, 1983 GPTC Guide for Transmission and Distribution Systems, A.G.A., Appendix G-192-15

5. Accidental Releases from Liquid Hydrocarbon Pipelines  5.1 Accidental Releases of Liquid Hydrocarbon through a “Small” Hole in Pipeline



Handbook of Chemical Hazard Analysis Procedures, US FEMA, US DOT, EPA Risk Management Program Guidance for Offsite Consequence Analysis, US EPA

Page 2 of 5



5.2 Calculation of Spray Zone during Accidental Release of Liquid Hydrocarbon from Pipeline

6. External Corrosion Direct Assessment Toolset 6.1 Remaining Life of Corroded PL & Re-assessment Interval for ECDA Region

6.2 Potential Impact Radius (PIR) 6.3 DCVG - % IR Drop 7. Pipeline Testing 7.1 Pipeline Hydrostatic Testing 7.2 Alternative Acceptance Standards for Girth Welds 7.3 Pipeline Pressure Testing – Maximum Pressure Drop 7.4 Pipeline Blowdown – Time/Volume Lost 7.5 Purging Calculations 7.6 Pack in Pipeline RSTRENG V5 – Evaluating Remaining Strength of Externally Corroded Pipe 8. Pipeline Corrosion 8.1 Evaluation of MAOP in Corroded Areas 8.2 Maximum Allowable Longitudinal Extent of Corrosion 8.3 Rate of Electrical Current Flow Through the Corrosion Cell 8.4 Relationship Resistance & Resistivity 8.5 Electrolyte Resistance from Surface of an Electrode to any Distance 8.6 Corrosion Current - Ohm’s Law 8.7 Electrical Resistance of a Conductor 9. Cathodic Protection 9.1 Estimated Weight of a Magnesium Anode 9.2 Resistance to Earth of an Impressed Anode Ground Bed 9.3 Rudenberg’s Formula for the Placement of

API Recommended Practice 520, Sizing, Selection, and Installation of Pressure-Relieving Devices in Refineries, Part I, American Petroleum Institute,  Crane Limited, Flow of Fluids through Valves, Fittings, and Pipe, Technical Paper No. 410-C, Crane Engineering Division  Bosch, C.J.H. van den and N.J. Duijm, The Netherlands Organization of Applied Scientific Research. Methods for the Calculation of Physical Effects, CPR 14E: Part (TNO Yellow Book), Ramskill, P.K., Discharge Rate Calculation Methods or Use in Plant Safety Assessments, Safety and Reliability 

GTI Report GRI-04/0093.6, NACE RP 0502, ASME B31.4, ASME B31.8, ASME B31.8S

Potential Impact Radius Formula for Flammable Gases Other then Natural Gas”, DOT/OPS TTO Number 13 Final Report CATH- TECH, Cathodic Technology Limited DOT/TSI Gas Distribution Handbook Pipeline Rules of Thumb Handbook, 3rd Edition API RP 1104 Appendix A (Option-2) DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook Pipeline Research Council International (PRCI)

ASME B31G ASME B31G DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook DOT/TSI Gas Distribution Handbook National Association of Corrosion Engineers, Control of Page 3 of 5

an Anode Ground Bed 9.4 Resistance to Earth of a Single Vertical Anode 9.5 Resistance to Earth of Multiple Vertical Anodes 9.6 Resistance to Earth of a Single Horizontal Anode 9.7 Required Number of Anodes & the Total Current Requirement 9.8 Power Consumption of a Cathodic Protection Rectifier 9.9 Cathodic Protection Attenuation Calculation 10. Polyethylene Pipe Design/Stress Analysis 10.1 Distributed Static Surcharge Load on Buried PE Pipe

10.2 Surcharge Live Load on Buried PE Pipe & Pipeline Crossings 10.2.1 Aircraft Load on Buried PE Pipe

10.2.2 AASHTO Std H20 Vehicular Loading for Paved & Flexible/Unpaved Surfaces 10.2.3 Off Road Crossing-Concentrated Point Load Single Wheel 10.2.4 Off Road Crossing-Concentrated Point Load Multiple Wheel 10.2.5 Off Road Crossing- Concentrated Point Load Not over Buried PE Pipe 10.2.6 Off Road Crossing-Unpaved Road Only (Timoshenko Equation) 10.2.7 Cooper E-80 Railroad Load on Buried PE Pipe 10.3 Installation of Polyethylene Pipelines by Horizontal Directional Drilling(HDD) 10.3.1 PE Pipe – Pull Force & Installation Stress Analysis 10.3.2 HDD PE Pipe - ATL Allowable Tensile Load During Pull-In Installation 10.3.3 PE Pipe - Post-Installation Stress Analysis 11. Data Bases 11.1 Physical Properties of Fluids 11.2 Pipe Databases for Steel, Polyethylene & Custom Pipe

Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion National Association of Corrosion Engineers, Control of Pipeline Corrosion ISO 15589 – CP Pipeline Transportation Systems 1. Soil Engineering, Spangler, M.G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins, R.K, and Loren, R, A, 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc.

1. Soil Engineering, Spangler, M.G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins, R.K, and Loren, R, A, 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc. 1. Soil Engineering, Spangler, .G. and Handy, R.L. 2. Structural Mechanics of Buried Pipes, Watkins, R.K, and Loren, R, A, 3. Polyethylene Pipe Handbook: Design of PE Piping Systems, Plastic Pipe Institute, Inc. 4. Modulus of Soil Reaction for Buried Flexible Pipe, ASCE Geotechnical Journal Vol. 103, Howard, A.K. 5. Evaluation of Modulus of Soil Reaction E’ and Its Variation with Depth, Report No.UCB/GT/82-02, Duncan,JM/Hartley,JD, Univ. of Calif, Berkeley

ASTM F 1962 05 ASTM F 1962 - 05 and ASTM F 1804 - 08 ASTM F 1962 - 05

British Gas - GasVLE  



Spec. for Line Pipe, API 5L Std Steel Pipe, ASTM B36.10 Spec. for Polyethylene Line Pipe, API 15LE

Page 4 of 5

12. Gas Properties Calculations 12.1 Gas Mixture Properties 12.2 Local Atmospheric Pressure 13. Utilities 13.1 Gas Mixture Properties 13.2 Physical Properties of Fluids 13.3 Document Management Module 13.4 Applications Integration Module

GPA Standard 2172, AGA Report No. 8,API MPMS 14.2 Various Application developed by TTI Application developed by TTI

13.5 Units Conversion Module

 

14. Standards/Regulations/Forms 14.1 Pipeline Safety Laws 14.2 DOT Regulations 14.3 DOT Forms & Instructions for Reporting 14.4 Canadian Pipeline Standards

AGA-8 & API MPMS Chapter 14.5 AGA Part 3

International System of Units (SI) ASTM Metric Guide E380-72E ANSI Standard Z201.1

 Updated with the latest 49 CFR - Parts 190-195 US Department of Transportation US Department of Transportation 49 CFR - Parts 190-195 US Department of Transportation 49 CFR - Parts 190-195 Internet Link provided to CSA website.

Page 5 of 5

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Pipeline Toolbox V17 –Edition for Gas Service - Technical Toolboxes

Pipeline Toolbox V17 –Edition for Gas Service (Included Modules, Applications & References) Applications Description 1. Pipeline Facilities 1.1 Pipeli...

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