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ASME B31.1 2018

ASME B31.1 2018

$98.04

ASME B31.1 – 2018: Power Piping

Published By Publication Date Number of Pages
ASME 2018 382
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ASME has been defining piping safety since 1922. ASME B31.1 prescribes minimum requirements for the design, materials, fabrication, erection, test, inspection, operation, and maintenance of piping systems typically found in electric power generating stations, industrial and institutional plants, geothermal heating systems, and central and district heating and cooling systems. It also covers boiler-external piping for power boilers and high-temperature, high pressure water boilers in which steam or vapor is generated at a pressure of more than 15 psig; and high temperature water is generated at pressures exceeding 160 psig and/or temperatures exceeding 250 degrees F. Key changes to this revision include: – New and updated figures for Code Jurisdictional Limits on Piping – New Mandatory Appendix on Metallic Bellows Expansion Joints – New Mandatory Appendix on Use of Alternative Ultrasonic Acceptance Criteria – Reference to ASME CA-1, Conformity Assessment Requirements ASME B31.1 is one of ASME’s most requested codes, widely adopted by jurisdictions worldwide. It is prominently referenced in ASME’s Boiler and Pressure Vessel Code, Section I. This Code serves as a companion to ASME’s B31.3 Code on Process Piping as well as to the other codes in ASME’s B31 series. Together, they remain essential references for anyone engaged with piping. Intended for manufacturers, designers, operators and owners of piping systems including, but not limited to, steam, water, oil, gas, and air services, plus all potential governing entities.

PDF Catalog

PDF Pages PDF Title
4 CONTENTS
9 FOREWORD
10 ASME B31 COMMITTEE ROSTER
13 INTRODUCTION
16 ASME B31.1-2018 SUMMARY OF CHANGES
19 Figures and Tables Redesignated in ASME B31.1–2018
22 Chapter I Scope and Definitions
100 GENERAL
100.1 Scope
23 100.2 Definitions
24 Figures
Figure 100.1.2-1 Code Jurisdictional Limits for Piping—An Example of Forced Flow Steam Generators With No Fixed Steam or Waterline
25 Figure 100.1.2-2 Code Jurisdictional Limits for Piping — An Example of Steam Separator Type Forced Flow Steam Generators With No Fixed Steam or Waterline
26 Figure 100.1.2-3 Code Jurisdictional Limits for Piping — Drum-Type Boilers
27 Figure 100.1.2-4 Code Jurisdictional Limits for Piping — Isolable Economizers Located in Feedwater Piping and Isolable Superheaters in Main Steam Piping (Boiler Pressure Relief Valves, Blowoff, and Miscellaneous Piping for Boiler Proper Not Shown for Clarity)
28 Figure 100.1.2-5 Code Jurisdictional Limits for Piping — Reheaters and Nonintegral Separately Fired Superheaters
29 Figure 100.1.2-6 Code Jurisdictional Limits for Piping — Spray-Type Desuperheater
30 Figure 100.1.2-7 Code Jurisdictional Limits for Piping — HRSG — Desuperheater Protection Devices
36 Chapter II Design
101 DESIGN CONDITIONS
101.1 General
101.2 Pressure
101.3 Temperature
101.4 Ambient Influences
101.5 Dynamic Effects
37 101.6 Weight Effects
101.7 Thermal Expansion and Contraction Loads
102 DESIGN CRITERIA
102.1 General
102.2 Pressure–Temperature Ratings for Piping Components
38 102.3 Allowable Stress Values and Other Stress Limits for Piping Components
39 102.4 Allowances
40 Tables
Table 102.4.3-1 Longitudinal Weld Joint Efficiency Factors
41 Figure 102.4.5-1 Nomenclature for Pipe Bends
Table 102.4.5-1 Bend Thinning Allowance
42 Table 102.4.6-1 Maximum Severity Level for Casting Thickness 41⁄2 in. (114 mm) or Less
43 103 CRITERIA FOR PRESSURE DESIGN OF PIPING COMPONENTS
104 PRESSURE DESIGN OF COMPONENTS
104.1 Straight Pipe
Table 102.4.6-2 Maximum Severity Level for Casting Thickness Greater Than 41⁄2 in. (114 mm)
44 Table 102.4.7-1 Weld Strength Reduction Factors to Be Applied When Calculating the Minimum Wall Thickness or Allowable Design Pressure of Components Fabricated With a Longitudinal Seam Fusion Weld
45 104.2 Curved Segments of Pipe
104.3 Intersections
46 Table 104.1.2-1 Values of y
48 Figure 104.3.1-1 Reinforcement of Branch Connections
51 Figure 104.3.1-2 Reinforced Extruded Outlets
53 104.4 Closures
54 104.5 Pressure Design of Flanges and Blanks
104.6 Reducers
104.7 Other Pressure-Containing Components
55 104.8 Analysis of Piping Components
Figure 104.5.3-1 Types of Permanent Blanks
57 105 PIPE
105.1 General
105.2 Metallic Pipe
105.3 Nonmetallic Pipe
106 FITTINGS, BENDS, AND INTERSECTIONS
106.1 Fittings
Figure 104.8.4-1 Cross Section Resultant Moment Loading
58 106.2 Bends and Intersections
106.3 Pipe Couplings and Unions
106.4 Flexible Metal Hose Assembly
107 VALVES
107.1 General
59 107.2 Marking
107.3 Ends
107.4 Stem Threads
107.5 Bonnet Joints
107.6 Bypasses
107.8 Pressure-Relieving Valves and Devices
108 PIPE FLANGES, BLANKS, FLANGE FACINGS, GASKETS, AND BOLTING
108.1 Flanges
108.2 Blanks
60 108.3 Flange Facings
108.4 Gaskets
108.5 U.S. Customary Bolting
108.6 Metric Bolting
110 PIPING JOINTS
111 WELDED JOINTS
111.1 General
61 111.2 Butt Welds
111.3 Socket Welds
111.4 Fillet Welds
111.5 Seal Welds
112 FLANGED JOINTS
113 EXPANDED OR ROLLED JOINTS
114 THREADED JOINTS
114.1 Threads on Piping Components
114.2 Threaded Joints, Access Holes With Plugs
62 Table 112-1 Piping Flange Bolting, Facing, and Gasket Requirements (Refer to Paras. 108, 110, and 112)
65 114.3 Threaded Pipe Wall
115 FLARED, FLARELESS, AND COMPRESSION JOINTS, AND UNIONS
115.1 Compatibility
115.2 Pressure–Temperature Ratings
115.3 Threads
115.4 Fitting and Gripping
116 BELL END JOINTS
116.1 Elastomeric-Gasket Joints
116.2 Caulked Joints
Table 114.2.1-1 Threaded Joints Limitations
66 117 BRAZED AND SOLDERED JOINTS
117.1 Brazed Joints
117.2 Soldered Joints
117.3 Limitations
118 SLEEVE COUPLED AND OTHER PROPRIETARY JOINTS
119 EXPANSION AND FLEXIBILITY
119.1 General
119.2 Displacement Stress Range
119.3 Local Overstrain
67 119.5 Flexibility
119.6 Piping Properties
119.7 Flexibility Analysis
68 119.8 Movements
119.9 Cold Spring
119.10 Reactions
69 120 LOADS ON PIPE-SUPPORTING ELEMENTS
120.1 General
120.2 Supports, Anchors, and Guides
70 121 DESIGN OF PIPE-SUPPORTING ELEMENTS
121.1 General
121.2 Allowable Stress Values
121.3 Temperature Limitations
121.4 Hanger Adjustments
121.5 Hanger Spacing
71 121.6 Springs
121.7 Fixtures
Table 121.5-1 Suggested Steel Pipe Support Spacing
72 121.8 Structural Attachments
Table 121.7.2-1 Carrying Capacity of Threaded ASTM A36, A575, and A576 Hot-Rolled Carbon Steel
73 121.9 Loads and Supporting Structures
121.10 Requirements for Fabricating Pipe Supports
122 DESIGN REQUIREMENTS PERTAINING TO SPECIFIC PIPING SYSTEMS
122.1 Boiler External Piping; in Accordance With Para. 100.1.2(a) — Steam, Feedwater, Blowoff, and Drain Piping
77 Figure 122.1.7-1 Typical Globe Valves
78 122.2 Blowoff and Blowdown Piping in Nonboiler External Piping
122.3 Instrument, Control, and Sampling Piping
79 Table 122.2-1 Design Pressure for Blowoff/Blowdown Piping Downstream of BEP Valves
81 122.4 Spray-Type Desuperheater Piping for Use on Steam Generators, Main Steam, and Reheat Steam Piping
Figure 122.4-1 Desuperheater Schematic Arrangement
82 122.5 Pressure-Reducing Valves
122.6 Pressure Relief Piping
83 122.7 Piping for Flammable or Combustible Liquids
122.8 Piping for Flammable Gases, Toxic Fluids (Gases or Liquids), or Nonflammable Nontoxic Gases
85 Table 122.8.2-1 Minimum Wall Thickness Requirements for Toxic Fluid Piping
86 122.9 Piping for Corrosive Liquids and Gases
122.10 Temporary Piping Systems
122.11 Steam Trap Piping
87 122.12 Exhaust and Pump Suction Piping
122.13 Pump Discharge Piping
122.14 District Heating and Steam Distribution Systems
88 Chapter III Materials
123 GENERAL REQUIREMENTS
123.1 Materials and Specifications
89 123.2 Piping Components
123.3 Pipe-Supporting Elements
123.4 Longitudinal-Welded or Spiral-Welded Pipe With Filler Metal Added
124 LIMITATIONS ON MATERIALS
124.1 Temperature Limitations
90 124.2 Steel
124.4 Cast Gray Iron
124.5 Malleable Iron
124.6 Ductile (Nodular) Iron
91 124.7 Nonferrous Metals
124.8 Cladding and Lining Materials
124.9 Nonmetallic Pipe
124.10 Deterioration of Materials in Service
124.11 Gaskets
124.12 Bolting
125 CREEP STRENGTH ENHANCED FERRITIC MATERIALS
125.1 Requirements for ASTM A217, Grade C12A and ASTM A1091, Grade C91 Castings
93 Chapter IV Dimensional Requirements
126 MATERIAL SPECIFICATIONS AND STANDARDS FOR STANDARD AND NONSTANDARD PIPING COMPONENTS
126.1 Standard Piping Components
126.2 Nonstandard Piping Components
126.3 Referenced Documents
94 Table 126.1-1 Specifications and Standards
102 Chapter V Fabrication, Assembly, and Erection
127 WELDING
127.1 General
127.2 Material
127.3 Preparation for Welding
103 127.4 Procedure
Figure 127.3-1 Butt Welding of Piping Components With Internal Misalignment
104 Figure 127.4.2-1 Welding End Transition — Maximum Envelope
106 Table 127.4.2-1 Reinforcement of Girth and Longitudinal Butt Welds
107 127.5 Qualification
Figure 127.4.4-1 Fillet Weld Size
108 Figure 127.4.4-2 Welding Details for Slip-On and Socket-Welding Flanges; Some Acceptable Types of Flange Attachment Welds
Figure 127.4.4-3 Minimum Welding Dimensions Required for Socket Welding Components Other Than Flanges
Figure 127.4.8-1 Typical Welded Branch Connection Without Additional Reinforcement
Figure 127.4.8-2 Typical Welded Branch Connection With Additional Reinforcement
109 127.6 Welding Records
128 BRAZING AND SOLDERING
128.1 General
128.2 Materials
Figure 127.4.8-3 Typical Welded Angular Branch Connection Without Additional Reinforcement
110 128.3 Preparation
128.4 Procedure
128.5 Brazing Qualification
Figure 127.4.8-4 Some Acceptable Types of Welded Branch Attachment Details Showing Minimum Acceptable Welds
111 Figure 127.4.8-5 Some Acceptable Details for Integrally Reinforced Outlet Fittings
112 Figure 127.4.8-6 Typical Full Penetration Weld Branch Connections for NPS 3 (DN 80) and Smaller Half Couplings or Adapters
113 128.6 Brazing Records
129 BENDING AND FORMING
129.1 Bending
129.2 Forming
129.3 Heat Treatment of Bends and Formed Components
Figure 127.4.8-7 Typical Partial Penetration Weld Branch Connection for NPS 2 (DN 50) and Smaller Fittings
Table 129.3.1-1 Approximate Lower Critical Temperatures
115 Table 129.3.3.1-1 Post Cold-Forming Strain Limits and Heat-Treatment Requirements for Creep-Strength Enhanced Ferritic Steels
116 130 REQUIREMENTS FOR FABRICATING AND ATTACHING PIPE SUPPORTS
130.1 Pipe Supports
130.2 Alternate Pipe Supports
130.3 Pipe Support Welds
131 WELDING PREHEAT
131.1 Minimum Preheat Requirements
131.2 Different P-Number Materials
131.3 Preheat Temperature Verification
131.4 Preheat Temperature
131.6 Interruption of Welding
117 Table 129.3.4.1-1 Post Cold-Forming Strain Limits and Heat-Treatment Requirements for Austenitic Materials and Nickel Alloys
118 132 POSTWELD HEAT TREATMENT
132.1 Minimum PWHT Requirements
Table 131.4.1-1 Preheat Temperatures
119 Table 132.1.1-1 Postweld Heat Treatment
120 132.2 Mandatory PWHT Requirements
132.3 Exemptions to Mandatory PWHT Requirements
132.4 Definition of Thicknesses Controlling PWHT
Table 132.1.1-2 Alternate Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels, P-Nos. 1 and 3
Table 132.1.3-1 Postweld Heat Treatment of P36/F36
121 Table 132.2-1 Exemptions to Mandatory Postweld Heat Treatment
123 132.5 PWHT Heating and Cooling Requirements
132.6 Furnace Heating
132.7 Local Heating
133 STAMPING
135 ASSEMBLY
135.1 General
135.2 Alignment
124 135.3 Bolted Flanged Connections
135.4 Packed Joints and Caulked Joints
135.5 Threaded Piping
135.6 Tubing Joints
135.7 Ductile Iron Bell End Piping
Figure 135.5.3-1 Typical Threaded Joints Using Straight Threads
125 Chapter VI Inspection, Examination, and Testing
136 INSPECTION AND EXAMINATION
136.1 Inspection
136.2 Inspection and Qualification of Authorized Inspector for Boiler External Piping
126 136.3 Examination
136.4 Examination Methods of Welds
127 Table 136.4.1-1 Mandatory Minimum Nondestructive Examinations for Pressure Welds or Welds to Pressure-Retaining Components
128 Table 136.4.1-2 Weld Imperfections Indicated by Various Types of Examination
129 137 PRESSURE TESTS
137.1 General Requirements
130 137.2 Preparation for Testing
137.3 Requirements for Specific Piping Systems
137.4 Hydrostatic Testing
131 137.5 Pneumatic Testing
137.6 Mass-Spectrometer and Halide Testing
137.7 Initial Service Testing
137.8 Retesting After Repair or Additions
133 Chapter VII Operation and Maintenance
138 GENERAL
139 OPERATION AND MAINTENANCE PROCEDURES
140 CONDITION ASSESSMENT OF CPS
134 141 CPS RECORDS
141.1 General
141.2 Materials
141.3 Installation, Modification, and Repair Records
141.4 Failure Analysis
141.5 Restoration After Failure
135 142 PIPING AND PIPE-SUPPORT MAINTENANCE PROGRAM AND PERSONNEL REQUIREMENTS
142.1 Maintenance Program
142.2 Personnel
144 CPS WALKDOWNS
145 MATERIAL DEGRADATION MECHANISMS
146 DYNAMIC LOADING
136 MANDATORY APPENDICES
137 MANDATORY APPENDIX A ALLOWABLE STRESS TABLES
139 Table A-1 Carbon Steel
151 Table A-2 Low and Intermediate Alloy Steel
163 Table A-3 Stainless Steels
197 Table A-4 Nickel and High Nickel Alloys
211 Table A-5 Cast Iron
215 Table A-6 Copper and Copper Alloys
221 Table A-7 Aluminum and Aluminum Alloys
231 Table A-8 Temperatures 1,200°F and Above
239 Table A-9 Titanium and Titanium Alloys
243 Table A-10 Bolts, Nuts, and Studs
250 MANDATORY APPENDIX B THERMAL EXPANSION DATA
251 Table B-1 Thermal Expansion Data
255 Table B-1 (SI) Thermal Expansion Data
260 MANDATORY APPENDIX C MODULI OF ELASTICITY
261 Table C-1 Moduli of Elasticity for Ferrous Material
262 Table C-1 (SI) Moduli of Elasticity for Ferrous Material
263 Table C-2 Moduli of Elasticity for Nonferrous Material
265 Table C-2 (SI) Moduli of Elasticity for Nonferrous Material
267 MANDATORY APPENDIX D FLEXIBILITY AND STRESS INTENSIFICATION FACTORS
268 Table D-1 Flexibility and Stress Intensification Factors
272 Figure D-1 Branch Connection Dimensions
273 Figure D-2 Flexibility Factor, k, and Stress Intensification Factor, I
274 Figure D-3 Correction Factor, c
275 MANDATORY APPENDIX F REFERENCED STANDARDS
279 MANDATORY APPENDIX G NOMENCLATURE
285 MANDATORY APPENDIX H PREPARATION OF TECHNICAL INQUIRIES
H-1 INTRODUCTION
H-2 REQUIREMENTS
H-3 SUBMITTAL
287 MANDATORY APPENDIX N RULES FOR NONMETALLIC PIPING AND PIPING LINED WITH NONMETALS
FOREWORD
288 Chapter N-I Scope and Definitions
N-100 GENERAL
N-100.1 Scope
N-100.2 Definitions and Abbreviations
290 Figure N-100.2.1-1 Winding Angle of Filament-Wound Thermosetting Resin Pipe
291 Chapter N-II Design
N-101 DESIGN CONDITIONS
N-101.1 General
N-101.2 Pressure
N-101.3 Temperature
N-102 DESIGN CRITERIA
N-102.1 General
N-102.2 Pressure–Temperature Ratings for Components
292 N-102.3 Allowable Stresses and Other Limits
293 Table N-102.2.1-1 Hydrostatic Design Stresses (HDS) and Recommended Temperature Limits for Thermoplastic Piping Components
294 Table N-102.2.1-2 Design Stresses (DS) and Recommended Temperature Limits for Laminated Reinforced Thermosetting Resin Piping Components
295 Table N-102.2.1-3 Hydrostatic Design Basis (HDB) for Machine-Made Reinforced Thermosetting Resin Pipe
N-102.4 Allowances
N-103 CRITERIA FOR PRESSURE DESIGN
296 Figure N-102.3.1-1 Typical Allowable Stress Curve for Filament-Wound Reinforced Thermosetting Resin Pipe
N-104 PRESSURE DESIGN OF COMPONENTS
N-104.1 Straight Pipe
297 N-104.2 Curved and Mitered Segments of Pipe
N-104.3 Intersections
N-104.4 Closures
N-104.5 Pressure Design of Flanges
298 N-104.6 Reducers
N-104.7 Design of Other Components
N-105 PIPE
N-106 FITTINGS
N-106.1 Listed Fittings
N-106.2 Unlisted Fittings
N-107 VALVES
N-107.1 Listed Valves
N-107.2 Unlisted Valves
N-110 GENERAL
N-111 BONDED JOINTS
N-111.1 General Limitations
N-111.2 Specific Limitations
299 N-112 FLANGED JOINTS
N-113 EXPANDED OR ROLLED JOINTS
N-114 THREADED JOINTS
N-114.1 General Limitations
N-114.2 Specific Limitations
N-115 FLARED LINING JOINTS FOR METALLIC PIPING LINED WITH NONMETALS
N-116 BELL END JOINTS
N-118 PROPRIETARY JOINTS
300 N-119 EXPANSION AND FLEXIBILITY
N-119.1 General Concepts
N-119.5 Flexibility
N-119.5.1
N-119.5.2
N-119.5.3
N-119.6 Properties for Flexibility Analysis
N-119.6.1 Thermal Expansion Data.
N-119.6.2 Modulus of Elasticity.
N-119.6.3 Poisson’s Ratio.
N-119.6.4 Dimensions.
N-119.6.5 Metallic Pipe Lined With Nonmetals.
301 Table N-119.6.1-1 Thermal Expansion Coefficients, Nonmetals
N-119.7 Analysis
N-119.7.1
N-119.7.2
N-119.7.3
N-120 LOADS ON PIPE-SUPPORTING ELEMENTS
N-121 DESIGN OF PIPE-SUPPORTING ELEMENTS
N-121.1 General
302 Table N-119.6.2-1 Modulus of Elasticity, Nonmetals
N-121.11 Thermoplastic and RTR Piping
N-121.12 Burial of Thermoplastic and RTR Pipe
N-122 DESIGN REQUIREMENTS PERTAINING TO SPECIFIC PIPING SYSTEMS
N-122.7 Piping for Flammable or Combustible Liquids
303 N-122.8 Piping for Flammable Gases, Toxic Gases or Liquids, or Nonflammable Nontoxic Gases
N-122.9 Piping for Corrosive Liquids and Gases
304 Chapter N-III Materials
N-123 GENERAL REQUIREMENTS
N-123.1 Materials and Specifications
N-124 LIMITATIONS ON MATERIALS
N-124.1 Temperature Limitations
N-124.9 Installation Limitations for Nonmetallic Piping
305 N-125 MISCELLANEOUS MATERIALS: JOINING AND AUXILIARY MATERIALS
306 Chapter N-IV Specifications and Standard Data
N-126 MATERIAL SPECIFICATIONS AND STANDARDS
N-126.1 Standard Piping Components
N-126.2 Nonstandard Piping Components
N-126.3 Reference Documents
307 Table N-126.1-1 Nonmetallic Material and Product Standards
309 Chapter N-V Fabrication, Assembly, and Erection
N-127 BONDING PLASTIC JOINTS
N-127.1 General
N-127.5 Qualification
310 N-127.6 Qualification Records
N-127.7 Thermoplastic Pipe Joints
311 Figure N-127.7.1-1 Solvent-Cemented Joint
Figure N-127.7.2-1 Heat Fusion Joints
N-127.8 FRP Pipe Joints
312 Figure N-127.7.3-1 Thermoplastic Electrofusion Joints
Figure N-127.8.1-1 Thermosetting Resin Joints
N-127.9 Welding of Metallic Piping Lined With Nonmetals
N-129 BENDING AND FORMING
N-129.1 Bending
N-129.2 Component Forming
N-135 ASSEMBLY AND ERECTION
N-135.1 General
313 N-135.3 Bolted Flanged Connections
314 Chapter N-VI Examination, Inspection, and Testing
N-136 GENERAL
N-136.1 Inspection
N-136.3 Examination
N-136.4 Examination Methods
315 Table N-136.4.1-1 Acceptance Criteria for Bonds
N-137 PRESSURE TESTS
316 MANDATORY APPENDIX O USE OF ALTERNATIVE ULTRASONIC ACCEPTANCE CRITERIA
O-1 GENERAL
O-2 SCOPE
O-3 EQUIPMENT
O-4 PERSONNEL
O-5 EXAMINATION
O-6 DATA RECORDING
O-7 DATA ANALYSIS
317 Figure O-8-1 Surface and Subsurface Indications
O-8 DISCONTINUITY EVALUATION
O-9 DISCONTINUITY ACCEPTANCE CRITERIA
318 Table O-9-1 Discontinuity Acceptance Criteria for Weld Thickness Under 1.0 in. (25 mm)
Table O-9-2 Surface Discontinuity Acceptance Criteria for Weld Thickness 1.0 in. (25 mm) and Over
Table O-9-3 Subsurface Discontinuity Acceptance Criteria for Weld Thickness 1.0 in. (25 mm) and Over
319 MANDATORY APPENDIX P METALLIC BELLOWS EXPANSION JOINTS
P-1 GENERAL
P-2 PIPING DESIGNER RESPONSIBILITIES
P-2.1 Expansion Joint Design Conditions
P-2.2 Piping Design Requirements
320 P-3 EXPANSION JOINT MANUFACTURER RESPONSIBILITIES
P-3.1 Expansion Joint Design
P-3.2 Expansion-Joint Manufacture
323 NONMANDATORY APPENDICES
324 NONMANDATORY APPENDIX II RULES FOR THE DESIGN OF SAFETY VALVE INSTALLATIONS
FOREWORD
II-1 SCOPE AND DEFINITION
II-1.1 Scope
II-1.2 Definitions (Valve Descriptions Follow the Definitions Given in ASME BPVC, Section I)
325 II-2 LOADS
II-2.1 Thermal Expansion
II-2.2 Pressure
326 Figure II-1.2-1 Safety Valve Installation (Closed Discharge System)
327 Figure II-1.2-2 Safety Valve Installation (Open Discharge System)
328 Figure II-2.2.1-1 Discharge Elbow (Open Discharge Installation)
Table II-2.2.1-1 Values of a and b
329 Figure II-2.2.1-2 Compressible Flow Analysis
II-2.3 Reaction Forces From Valve Discharge
330 Figure II-2.2.1-3 Vent Pipe (Open Discharge Installation)
331 II-2.4 Other Mechanical Loads
332 II-3 BENDING MOMENT COMPUTATIONS
II-3.1 General
II-3.2 Thermal Expansion Analysis
II-3.3 Deadweight Analysis
II-3.4 Earthquake Analysis
II-3.5 Analysis for Reaction Forces Due to Valve Discharge
333 II-4 LOADING CRITERIA AND STRESS COMPUTATION
II-4.1 Loading Criteria
334 Figure II-3.5.1.3-1 Safety Valve Installation (Open Discharge System)
II-4.2 Stress Calculations
335 Figure II-3.5.1.3-2 Dynamic Load Factors for Open Discharge System
336 II-5 DESIGN CONSIDERATIONS
II-5.1 General
II-5.2 Geometry
II-5.3 Types of Valves and Installations
II-5.4 Installation Branch Connections
337 II-5.5 Water in Installation Piping
II-5.6 Discharge Stacks
II-5.7 Support Design
II-5.8 Silencer Installation
II-6 SAMPLE DESIGNS
338 Figure II-6-1 Examples of Safety Valve Installations
II-7 SAMPLE PROBLEM (SEE FIGURE II-7-1 AND FIGURE II-7-2)
II-7.1 Procedure
339 Figure II-7-1 Sample Problem Figure 1
340 Figure II-7-2 Sample Problem Figure 2
343 Figure II-7.1.9-1 Sample Problem Figure 3
344 NONMANDATORY APPENDIX IV CORROSION CONTROL FOR ASME B31.1 POWER PIPING SYSTEMS
FOREWORD
IV-1 GENERAL
IV-1.1 Recommended Guidance
IV-1.2 Protection of All Piping Systems
IV-2 EXTERNAL CORROSION CONTROL FOR BURIED OR SUBMERGED PIPELINES
IV-2.1 General
IV-2.2 Protective Coating
345 IV-2.3 Cathodic Protection System
IV-2.4 Electrical Isolation
IV-2.5 Electrical Interference
IV-3 INTERNAL CORROSION CONTROL
IV-3.1 General
IV-3.2 Inhibitors
IV-3.3 Linings
346 IV-3.4 Precautions at Hydrotesting
IV-4 EXTERNAL CORROSION CONTROL FOR PIPING EXPOSED TO THE ATMOSPHERE
IV-5 MONITORING OF PIPE WALL THINNING DUE TO EROSION/CORROSION
IV-5.1 Definition
IV-5.2 Systems and Components Susceptible to Erosion/Corrosion
IV-5.3 Methods of Detection
IV-5.4 Acceptance Standards
347 Table IV-5.2-1 Erosion/Corrosion Rates
IV-5.5 Repair/Replacement Procedures
IV-5.6 References
348 NONMANDATORY APPENDIX V RECOMMENDED PRACTICE FOR OPERATION, MAINTENANCE, AND MODIFICATION OF POWER PIPING SYSTEMS
FOREWORD
V-1 DEFINITIONS
349 V-2 GENERAL
V-2.1 Application
V-2.2 Conformance
V-2.3 Requirements
V-3 OPERATING AND MAINTENANCE PROGRAM
V-3.1 General
V-3.2 Documentation
V-4 REQUIREMENTS OF THE OPERATING, MAINTENANCE, AND MODIFICATION PROCEDURES
350 V-5 PIPING AND PIPE SUPPORT MAINTENANCE PROGRAM AND PERSONNEL REQUIREMENTS
V-5.1 Maintenance Program
V-5.2 Personnel
V-6 MATERIAL RESTORATION
V-6.1 Material Condition After Failure
351 V-6.2 Inspection Program for Materials With Adverse History
V-6.3 Nondestructive Examination
V-7 CPS POSITION HISTORY
V-7.1 General
V-7.2 Visual Survey
V-7.3 Piping Position Markers
V-7.4 Pipe Supports on CPS
352 V-7.5 CPS Records
V-7.6 Recommendations
V-8 PIPING CORROSION
V-8.1 General
353 Forms
Form V-7.5-1 Piping System Support Design Details
354 Form V-7.5-2 Hot Walkdown of Piping System Supports
355 Form V-7.5-3 Cold Walkdown of Piping System Supports
356 V-8.2 Procedures
V-8.3 Records
V-8.4 Examination of Records
V-8.5 Frequency of Examination
V-9 PIPING ADDITION TO EXISTING PLANTS
V-9.1 Piping Classification
V-9.2 Duplicate Components
V-9.3 Replacement Piping and Piping Components
357 V-10 PRESSURE RELIEF DEVICES
V-10.1 General
V-10.2 Inspection, Testing, and Adjustment
V-10.3 Operation
V-11 DYNAMIC LOADING
V-11.1 Water Hammer
358 Figure V-12.1.2-1 Effect of Various Steady Operating Temperatures on Time to Failure Due to Creep
V-11.2 Steam Hammer
V-12 CREEP
V-12.1 General
359 V-12.2 Procedures
V-12.3 Records
V-12.4 Examination of Records
V-12.5 Frequency of Examination
V-13 RERATING PIPING SYSTEMS
V-13.1 Conditions
360 V-14 REPAIR OF PIPING SYSTEMS
V-14.1 Guidance for Repairs
362 NONMANDATORY APPENDIX VII PROCEDURES FOR THE DESIGN OF RESTRAINED UNDERGROUND PIPING
FOREWORD
VII-1 SCOPE AND DEFINITIONS
VII-1.1 Scope
VII-1.2 Definitions
363 VII-1.3 Nomenclature
VII-2 LOADS
VII-2.1 Thermal Expansion
VII-2.2 Pressure
364 VII-2.3 Earthquake
VII-3 CALCULATIONS
VII-3.1 Assembling the Data
VII-3.2 Calculations of Intermediate Parameters
365 Table VII-3.2.3-1 Approximate Safe Working Values of CD for Use in Modified Marston Formula
VII-3.3 Classification of the Pipe Runs
366 Figure VII-3.3.2-1 Element Category A, Elbow or Bend
Figure VII-3.3.2-2 Element Category B, Branch Pipe Joining the P Leg
Figure VII-3.3.2-3 Element Category C, Tee on End of P Leg
Figure VII-3.3.2-4 Element Category D, Straight Pipe
367 VII-4 COMPUTER MODELING OF BURIED PIPING
VII-4.1 Determination of Stresses
VII-4.2 Determination of Element Lengths
368 VII-4.3 Determination of Soil Parameters
VII-4.4 Pipe With Expansion Joints
VII-4.5 Pipe Stresses at Building Penetrations
VII-5 ALLOWABLE STRESS IN BURIED PIPE
VII-6 EXAMPLE CALCULATIONS
VII-6.1 Assemble the Data
VII-6.2 Calculate the Intermediate Parameters
369 Figure VII-5-1 Plan of Example Buried Pipe
VII-6.3 Classification of Runs
370 Table VII-6.3-1 Equations for Calculating Effective Length L′ or L″
VII-6.4 Computer Modeling
371 Figure VII-6.4.4-1 Computer Model of Example Pipe
VII-6.5 Results of Analysis
VII-6.6 Anchor Load Example
372 Figure VII-6.6-1 Example Plan of Element 1 as a Category D Element
VII-7 REFERENCES
373 NONMANDATORY APPENDIX VIII GUIDELINES FOR DETERMINING IF LOW-TEMPERATURE SERVICE REQUIREMENTS APPLY
374 Table VIII-1 Low-Temperature Service Requirements by Material Group
376 Table VIII-2 Material Groupings by Material Specification

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