ASME BPVC I 2015

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ASME BPVC – I -2015 BPVC Section I, Rules for Construction of Power Boilers

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ASME	2015

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63	PG-19 Post Cold‐Forming Strain Limits and Heat‐Treatment Requirements
65	PG-20 Post Cold‐Forming Strain Limits and Heat‐Treatment Requirements
68	PG-26 Weld Strength Reduction Factors to Be Applied When Calculating Maximum Allowable Working Pressure or Minimum Required Thickness of Components Fabricated With a Longitudinal Seam Weld
73	PG-28 Maximum Internal Projection of Welded Access or Inspection Openings
77	PG-31 Some Acceptable Types of Unstayed Flat Heads and Covers
82	PG-33.1 Nomenclature and Equations for Reinforced Openings
84	PG-33.2 Some Representative Configurations Describing the Dimensions te, h, and d
85	PG-33.3 Chart for Determining Value of F
86	PG-38 Illustrations of the Rule Given in PG-38.4
87	PG-39 Minimum Number of Threads Per Connection
89	PG-42.1 Welding End Transitions Maximum Envelope
91	PG-46.2 Acceptable Proportions for Ends of Through‐Stays
93	PG-52.1 Diagram for Determining the Efficiency of Longitudinal and Diagonal Ligaments Between Openings in Cylindrical Shells
94	PG-52.2 Example of Tube Spacing With Pitch of Holes Equal in Every Row PG-52.3 Example of Tube Spacing With Pitch of Holes Unequal in Every Second Row PG-52.4 Example of Tube Spacing With Pitch of Holes Varying in Every Second and Third Row
95	PG-52.5 Example of Tube Spacing With Tube Holes on Diagonal Lines
96	PG-53.3 Diagram for Determining Equivalent Longitudinal Efficiency of Diagonal Ligaments Between Openings in Cylindrical Shells
97	PG-56.1.2 Method of Computation of Attachments to Tubes
98	PG-56.2 Chart for Determining Load Factor, Lf PG-56.2 Tube Attachment Angle Design Factor, K
100	PG-58.3.1(a) Code Jurisdictional Limits for Piping — Drum‐Type Boilers
101	PG-58.3.1(b) Code Jurisdictional Limits for Piping — Isolable Economizers Located in Feedwater Piping and Isolable Superheaters in Main Steam Piping
102	PG-58.3.1(c) Code Jurisdictional Limits for Piping — Reheaters and Nonintegral Separately Fired Superheaters
103	PG-58.3.2 Code Jurisdictional Limits for Piping — An Example of Forced‐Flow Steam Generators With No Fixed Steam or Waterline
104	PG-58.3.3 Code Jurisdictional Limits for Piping — An Example of Steam Separator Type Forced-Flow Steam Generators With No Fixed Steam or Waterline
105	PG-59.1 Typical Boiler Bushings
108	PG-60.3.7 Y‐Type Globe Valve
109	PG-60.3.9 Typical Arrangement of Steam and Water Connections for a Water Column
112	PG-67.4 Requirements for Overpressure Protection Forced‐Flow Steam Generator
114	PG-67.5 Supercritical Correction Factor, Ksc
116	PG-67.5M Supercritical Correction Factor, Ksc
118	PG-68.7 Superheat Correction Factor, Ksh
120	PG-68.7M Superheat Correction Factor, Ksh
130	PG-80 Maximum Permissible Deviation From a Circular Form, e, for Cylindrical Parts Under External Pressure
133	PG-105.1 Official Certification Mark to Denote the American Society of Mechanical Engineers’ Standard for Boilers
134	PG-106 Form of Stamping
143	PW-9.3.1 Butt Welding of Plates of Unequal Thickness
145	PW-9.3.3 Heads Attached to Shells
148	PW-15 Examples of Weld Strength Calculations
149	PW-16.1 Some Acceptable Types of Welded Nozzles and Other Connections to Shells, Drums, and Headers
153	PW-16.2 Some Acceptable Forms of Welds for Lugs, Hangers, and Brackets on Shells, Drums, and Headers
155	PW-16.8 Some Acceptable Designs for Partial-Penetration-Weld-Type Attachments Designed for 900°F (480°C) or Higher Service
157	PW-19.4(a) Some Acceptable Types of Diagonal Braces for Installation by Welding PW-19.4(b) Unacceptable Types of Diagonal Braces for Installation by Welding
159	PW-33 Alignment Tolerance of Sections to Be Butt Welded
162	PW-39-1 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 1
163	PW-39-2 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 3
164	PW-39-3 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 4
165	PW-39-4 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 5A
166	PW-39-5 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 15E
167	PW-39-6 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 6
168	PW-39-7 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 7 PW-39-8 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 8
169	PW-39-9 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 10H PW-39-10 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 10I
170	PW-39-11 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 31 PW-39-12 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 43
171	PW-39-13 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 45 PW-39-14 Mandatory Requirements for Postweld Heat Treatment of Pressure Parts and Attachments — P-No. 51
172	PW-39.1 Alternate Postweld Heat Treatment Requirements for Carbon and Low Alloy Steels
179	PW-53.1 Test Specimens From Longitudinal Welded Test Plates
180	PW-53.2 Method of Forming Longitudinal Test Plates
181	PW-53.3(a) Details of Tension Test Specimens
182	PW-53.3(b) Details of Bend Test Specimens
185	PR-9-1 Minimum Thickness of Buttstraps
186	PR-13-1 Typical Plate Edge Beveled for Sealing by Calking in a Riveted Joint
187	PR-15.4-1 Location of Seams in Inside and Outside Calking Boundaries PR-15.3-1 Allowable Stress on Rivets in Tension
188	PR-17.2-1 Boundary of Reinforcing Plate on Outside and Inside of Drum
189	PR-20.2-1 Allowable Welding of Plate Edges at Ends of Buttstraps
192	PB-1 Maximum Design Temperatures for Brazing Filler Metal
193	PB-15 Some Acceptable Types of Brazed Joints
194	PB-16 Recommended Joint Clearance at Brazing Temperature
198	PL-2.2-1 Steam Locomotive Boiler With Dome Throttle
199	PL-2.2-2 Steam Locomotive Boiler With Front-End Throttle
201	PL-20.4.1-1 Round Riveted Plate
202	PL-20.4.2-1 Diamond Riveted Plate PL-20.5-1 Manhole Frame
203	PL-21.3.4-1 Thickness of Riveted Reinforcing Rings for Dome Openings
204	PL-21.4.1-1 Steam Dome Top Flange
206	PL-24.1-1 Maximum Allowable Working Pressure for Steel Flues for Firetube Locomotive Boilers
208	PL-27.5-1 Examples of Doubler Attachment Methods
210	PL-27.6.3-1 Double-Riveted Lap Seam in Stayed Area PL-27.6.3-2 Double-Fillet-Welded Lap Seam in Stayed Area
211	PL-27.7-1 Upper Corner of Firebox
212	PL-28.2-1 Some Examples of Acceptable Mudring Construction
213	PL-33-1 Example of Crown Bar Installation PL-28.4-1 Radii for Firebox Mudrings
214	PL-36.2.1-1 Support Perimeters
215	PL-36.5-1 Typical Forms of Diagonal Braces PL-36.7-1 Typical Forms of Gusset Braces
216	PL-36.9-1 Tee Iron
217	PL-36.9-2 Tee-Iron Support Area
218	PL-39.1-1 Arch Tubes
219	PL-39.2.1-1 Circulators PL-39.2.1-2 Circulator Attachment Section Views
220	PL-39.3-1 Example of Thermic Syphon Installation
223	PWT-11 Examples of Acceptable Forms of Tube Attachment
226	PFT-12.1 Some Acceptable Forms of Tube Attachment on Firetube Boilers
228	PFT-17.2 Acceptable Type of Ring‐Reinforced Furnace
229	PFT-18.1 Morison Furnace
230	PFT-19 Connection Between Plain and Corrugated Furnace PFT-20 Welding Ogee Ring
231	PFT-21 Some Acceptable Methods of Forming Waterleg Joints by Welding
232	PFT-23.1 Stayed Wrapper Sheet of Locomotive‐Type Boiler
234	PFT-25 Example of Staying of Heads Adjacent to Cylindrical Furnaces
235	PFT-27 Pitch of Staybolts Adjacent to Upper Corners of Fireboxes
236	PFT-32 Measurements for Determining Stresses in Diagonal Stays
239	PFT-46.1 Spacing and Weld Details for Wall‐Support Lugs Set in Pairs on Horizontal‐Return Tubular Boilers PFT-46.2 Welded Bracket Connection for Horizontal‐Return Tubular Boilers
248	PVG-12 Constant, C, for Vapor Related to Ratio of Specific Heats (k = cp/cv)
252	PHRSG-4 Some Acceptable Desuperheater Spraywater Protection Device Arrangements
253	PHRSG-4 Minimum Drain Pot Size
254	Table II-1Standard Units for Use in Equations II-1 Standard Units for Use in Equations
256	FORM III-1A CERTIFICATE OF CONFORMANCE FOR REAPPLICATION OF THE CERTIFICATION MARK III-1A Certificate of Conformance for Reapplication of the Certification Mark
257	Guide for Completing the Certificate of Conformance for Reapplication of the Certification Mark
259	Figure IV-2-1 Symbols IV-2-1 Symbols
260	Figure IV-3-1 Blend Requirements Figure IV-3-2 Figure IV-3-3 IV-3-1 Blend Requirements IV-3-2 IV-3-3
261	Figure IV-3-4 Figure IV-3-5 IV-3-4 IV-3-5
262	Figure V-2.2-1 Riveted Circumferential Joint for Circular Furnace Plates Over 5/8 in. (16 mm) V-2.2-1 Riveted Circumferential Joint for Circular Furnace Plates Over 5/8 in. (16 mm)
263	Figure V-2.2-2 Proper Location of Staybolts Adjacent to Longitudinal Joint in Furnace Sheet V-2.2-2 Proper Location of Staybolts Adjacent to Longitudinal Joint in Furnace Sheet
264	Table V-4-1 Sizes of Angles Required for Staying Segments of Heads Figure V-4-1 Staying of Head With Steel Angles in Tubular Boiler V-4-1 Staying of Head With Steel Angles in Tubular Boiler V-4-1 Sizes of Angles Required for Staying Segments of Heads
265	Figure V-5-1 Method of Riveting Manhole Frames to Shells or Drums With Two Rows of Rivets V-5-1 Method of Riveting Manhole Frames to Shells or Drums With Two Rows of Rivets
268	Figure A-2-1 Single-Riveted Lap Joint, Longitudinal or Circumferential A-2-1 Single-Riveted Lap Joint, Longitudinal or Circumferential
269	Figure A-3-1 Double-Riveted Lap Joint, Longitudinal orCircumferential Figure A-4-1 Double-Riveted Buttstrap and Double-StrapJoint A-3-1 Double-Riveted Lap Joint, Longitudinal or Circumferential A-4-1 Double-Riveted Buttstrap and Double-Strap Joint
270	Figure A-5-1 Triple-Riveted Buttstrap and Double-StrapJoint Figure A-6-1 Quadruple-Riveted Buttstrap and Double-StrapJoint A-5-1 Triple-Riveted Buttstrap and Double-Strap Joint A-6-1 Quadruple-Riveted Buttstrap and Double-Strap Joint
271	Figure A-6-2 Joints That May Be Used to Avoid Eccentric Stresses A-6-2 Joints That May Be Used to Avoid Eccentric Stresses
272	Figure A-8 Detail Illustrations Showing Application of PG-48 and PFT-27 to the Staying of Boilers A-8 Detail Illustrations Showing Application of PG-48 and PFT-27 to the Staying of Boilers
278	Figure A-19 Typical Forms of Fusible Plugs A-19 Typical Forms of Fusible Plugs
282	Table A-44 Guide for Estimating Steaming Capacity Based on Heating Surface A-44 Guide for Estimating Steaming Capacity Based on Heating Surface
284	Figure A-66 Example for Typical Nozzle Computations A-66 Example for Typical Nozzle Computations
286	Figure A-67 Example for Typical Nozzle Computations A-67 Example for Typical Nozzle Computations
287	Figure A-68 Example for Typical Nozzle Computations A-68 Example for Typical Nozzle Computations
288	Figure A-69 Example for Typical Nozzle Computations A-69 Example for Typical Nozzle Computations
294	Figure A-70.1 Example for Typical Nozzle Computations A-70.1 Example for Typical Nozzle Computations
296	Figure A-70.2 Example for Typical Nozzle Computations A-70.2 Example for Typical Nozzle Computations
298	Figure A-71 Structural Attachment With Radial Load Figure A-72 Structural Attachment With Eccentric Load Figure A-73 Structural Attachment With Moment Load A-71 Structural Attachment With Radial Load A-72 Structural Attachment With Eccentric Load A-73 Structural Attachment With Moment Load
299	Figure A-74 Structural Attachment on Tube Bend A-74 Structural Attachment on Tube Bend
300	Figure A-75-1 Example of Nozzle Attached by Riveting A-75-1 Example of Nozzle Attached by Riveting
302	Table A-75-1 A-75-1
304	Table A-250.3.2 Maximum Permissible Size of Rounded Indication (Examples Only) A-250.3.2 Maximum Permissible Size of Rounded Indication
305	Figure A-250.3.4-1 Aligned Rounded Indications Figure A-250.3.4-2 Groups of Aligned Rounded Indications A-250.3.4-1 Aligned Rounded Indications A-250.3.4-2 Groups of Aligned Rounded Indications
306	Figure A-250.3.6-1 Charts for t 1/8 in. (3 mm) to 1/4 in. (6 mm), Inclusive A-250.3.6-1 Charts for t 1/8 in. (3 mm) to 1/4 in. (6 mm), Inclusive
307	Figure A-250.3.6-2 Charts for t Over 1/4 in. (6 mm) to 3/8 in. (10 mm), Inclusive Figure A-250.3.6-3 Charts for t Over 3/8 in. (10 mm) to 3/4 in. (19 mm), Inclusive A-250.3.6-2 Charts for t Over 1/4 in. (6 mm) to 3/8 in. (10 mm), Inclusive A-250.3.6-3 Charts for t Over 3/8 in. (10 mm) to 3/4 in. (19 mm), Inclusive
308	Figure A-250.3.6-4 Charts for t Over 3/4 in. (19 mm) to 2 in. (50 mm), Inclusive A-250.3.6-4 Charts for t Over 3/4 in. (19 mm) to 2 in. (50 mm), Inclusive
309	Figure A-250.3.6-5 Charts for t Over 2 in. (50 mm) to 4 in. (100 mm), Inclusive A-250.3.6-5 Charts for t Over 2 in. (50 mm) to 4 in. (100 mm), Inclusive
310	Figure A-250.3.6-6 Charts for t Over 4 in. (100 mm) A-250.3.6-6 Charts for t Over 4 in. (100 mm)
316	FORM P-2 MANUFACTURER’S DATA REPORT FOR ALL TYPES OF BOILERS EXCEPT WATERTUBE AND ELECTRIC P-2 Manufacturer’s Data Report for All Types of Boilers Except Watertube and Electric
318	Table A-351 Guide for Completing Manufacturer’s Data Report, Form P-2 A-351 Guide for Completing Manufacturer’s Data Report, Form P-2
320	FORM P-2A MANUFACTURER’S DATA REPORT FOR ALL TYPES OF ELECTRIC BOILERS P-2A Manufacturer’s Data Report for All Types of Electric Boilers
323	Table A-351.1 Guide for Completing Manufacturer’s Data Report, Form P-2A A-351.1 Guide for Completing Manufacturer’s Data Report, Form P-2A
325	FORM P-2B MANUFACTURER’S DATA REPORT FOR ELECTRIC SUPERHEATERS AND REHEATERS P-2B Manufacturer’s Data Report for Electric Superheaters and Reheaters
327	Table A-351.2 Guide for Completing Manufacturer’s Data Report, Form P-2B A-351.2 Guide for Completing Manufacturer’s Data Report, Form P-2B
329	FORM P-3 MANUFACTURER’S DATA REPORT FOR WATERTUBE BOILERS, SUPERHEATERS, WATERWALLS, AND ECONOMIZERS P-3 Manufacturer’s Data Report for Watertube Boilers, Superheaters, Waterwalls, and Economizers
332	Table A-352 Guide for Completing Manufacturer’s Data Report, Form P-3 A-352 Guide for Completing Manufacturer’s Data Report, Form P-3
334	FORM P-3A ENGINEERING-CONTRACTOR DATA REPORT FOR A COMPLETE BOILER UNIT P-3A Engineering-Contractor Data Report for a Complete Boiler Unit
336	Table A-353 Guide for Completing Engineering-Contractor Data Report for a Complete Boiler Unit, Form P-3A A-353 Guide for Completing Engineering-Contractor Data Report for a Complete Boiler Unit, Form P-3A
337	FORM P-4 MANUFACTURER’S PARTIAL DATA REPORT P-4 Manufacturer’s Partial Data Report
339	Table A-354 Guide for Completing Manufacturer’s Partial Data Report, Form P-4 A-354 Guide for Completing Manufacturer’s Partial Data Report, Form P-4
340	FORM P-4A MANUFACTURER’S DATA REPORT FOR FABRICATED PIPING P-4A Manufacturer’s Data Report for Fabricated Piping
342	Table A-354.1 Guide for Completing Manufacturer’s Data Report, Form P-4A A-354.1 Guide for Completing Manufacturer’s Data Report, Form P-4A
343	FORM P-4B MANUFACTURER’S DATA REPORT FOR FIELD INSTALLED MECHANICALLY ASSEMBLED PIPING P-4B Manufacturer’s Data Report for Field Installed Mechanically Assembled Piping
344	Table A-354.2 Guide for Completing Manufacturer’s Data Report, Form P-4B A-354.2 Guide for Completing Manufacturer’s Data Report, Form P-4B
345	FORM P-5 SUMMARY DATA REPORT FOR PROCESS STEAM GENERATORS P-5 Summary Data Report for Process Steam Generators
346	Table A-355 Guide for Completing Summary Data Report for Process Steam Generators, Form P-5 A-355 Guide for Completing Summary Data Report for Process Steam Generators, Form P-5
347	FORM P-6 MANUFACTURER’S DATA REPORT SUPPLEMENTARY SHEET P-6 Manufacturer’s Data Report Supplementary Sheet
348	FORM P-7 MANUFACTURER’S DATA REPORT FOR PRESSURE RELIEF VALVES P-7 Manufacturer’s Data Report for Pressure Relief Valves
350	Table A-356 Guide for Completing Manufacturer’s Data Report for Pressure Relief Valves, Form P-7 A-356 Guide for Completing Manufacturer’s Data Report for Pressure Relief Valves, Form P-7
351	Figure A-357 Guide to Data Report Forms Distribution A-357 Guide to Data Report Forms Distribution
352	FORM P-8 MANUFACTURER’S OR ASSEMBLER’S CERTIFICATE OF CONFORMANCE FOR PRESSURE RELIEF VALVES P-8 Manufacturer’s or Assembler’s Certificate of Conformance for Pressure Relief Valves
353	Table A-358 Guide for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance, Form P-8 A-358 Guide for the Preparation of Manufacturer’s or Assembler’s Certificate of Conformance, Form P-8
354	FORM PL-1 MANUFACTURER’S DATA REPORT FOR LOCOMOTIVE BOILERS PL-1 Manufacturer’s Data Report for Locomotive Boilers
358	Table A-359 Guide for Completing Manufacturer’s Data Report for Locomotive Boilers, Form PL-1 A-359 Guide for Completing Manufacturer’s Data Report for Locomotive Boilers, Form PL-1
359	Table A-360 Codes, Standards, and Specifications Referenced in Text A-360 Codes, Standards, and Specifications Referenced in Text
360	Table A-370 Guide to Information Appearing on Certificate of Authorization A-370 Guide to Information Appearing on Certificate of Authorization
361	Figure A-370 Sample Certificate of Authorization A-370 Sample Certificate of Authorization
370	Table B-1 Identification Elements B-1 Identification Elements
376	INTERPRETATIONS VOLUME 63 — SECTION I