Figures and Images of API 650
Figures in the Body of the Document
4-1 Minimum Permissible Design Metal Temperature for
Materials Used in Tank Shells without Impact Testing 4-6
4-2 Isothermal Lines of Lowest One-Day Mean Temperatures
(°F) °C = (°F – 32)/1.8 4-7
4-3 Governing Thickness for Impact Test Determination of
Shell Nozzle and Manhole Materials 4-13
5-1 Typical Vertical Shell Joints 5-2
5-2 Typical Horizontal Shell Joints 5-2
5-3A Typical Roof and Bottom Joints 5-3
5-3B Method for Preparing Lap-Welded Bottom Plates under
Tank Shell 5-3
5-3C Detail of Double Fillet-Groove Weld for Annular Bottom
Plates with a Nominal Thickness Greater
Than 13 mm (1/2 in.) 5-4
5-4 Storage Tank Volumes and Levels 5-7
5-5 Drip Ring (Suggested Detail) 5-9
5-6 Minimum Weld Requirements for Openings in Shells
According to 5.7.3 5-19
5-7A Shell Manhole 5-23
5-7B Details of Shell Manholes and Nozzles 5-24
5-8 Shell Nozzles 5-25
5-9 Minimum Spacing of Welds and Extent of Related
Radiographic Examination 5-37
5-10 Shell Nozzle Flanges 5-40
5-11 Area Coefficient for Determining Minimum Reinforcement
of Flush-Type Cleanout Fittings 5-40
5-12 Flush-Type Cleanout Fittings 5-41
5-13 Flush-Type Cleanout-Fitting Supports 5-42
5-14 Flush-Type Shell Connection 5-46
5-15 Rotation of Shell Connection 5-49
5-16 Roof Manholes 5-51
5-17 Rectangular Roof Openings with Flanged Covers 5-55
5-18 Rectangular Roof Openings with Hinged Cover 5-56
5-19 Flanged Roof Nozzles 5-57
5-20 Threaded Roof Nozzles 5-57
5-21 Drawoff Sump 5-58
5-22 Scaffold Cable Support 5-58
5-23 Grounding Lug 5-62
5-24 Typical Stiffening-Ring Sections for Tank Shells 5-63
5-25 Stairway Opening through Stiffening Ring 5-66
5-26 Some Acceptable Column Base Details 5-74
5-27 Overturning Check for Unanchored Tanks 5-78
6-1 Shaping of Plates 6-2
8-1 Radiographic Requirements for Tank Shells 8-2
10-1 Manufacturer’s Namplate 10-1
10-2 Manufacturer’s Certification Letter 10-2
Figures in the Appendices
AL-1 Cover Plate Thickness for Shell Manholes and Cleanout
Fittings AL-11
AL-2 Flange Plate Thickness for Shell Manholes and Cleanout
Fittings AL-12
AL-3 Bottom Reinforcing Plate Thickness for Cleanout
Fittings AL-13
AL-4 Stresses in Roof Plates AL-16
B-1 Example of Foundation with Concrete Ringwall B-3
B-2 Example of Foundation with Crushed Stone Ringwall B-4
E-1 Coefficient Ci E-10
EC-1 EC-3
EC-2 EC-3
EC-3 EC-4
EC-4 EC-5
EC-5 EC-5
EC-6 EC-6
EC-7 Design Response Spectra for Ground-Supported Liquid
Storage Tanks EC-7
EC-8 Effective Weight of Liquid Ratio EC-8
EC-9 EC-8
EC-10 EC-9
EC-11 EC-10
F-1 Appendix F Decision Tree F-2
F-2 Permissible Details of Compression Rings F-3
G-1 Data Sheet for a Structurally-Supported Aluminum Dome
Added to an Existing Tank G-2
G-2 Typical Roof Nozzle G-8
I-1 Concrete Ringwall with Undertank Leak Detection at the
Tank Perimeter (Typical Arrangement) I-1
I-2 Crushed Stone Ringwall with Undertank Leak Detection at
the Tank Perimeter
(Typical Arrangement) I-2
I-3 Earthen Foundation with Undertank Leak Detection at the
Tank Perimeter
(Typical Arrangement) I-2
I-4 Double Steel Bottom with Leak Detection at the Tank
Perimeter (Typical Arrangement) I-3
I-5 Double Steel Bottom with Leak Detection at the Tank
Perimeter (Typical Arrangement) I-3
I-6 Reinforced Concrete Slab with Leak Detection at the
Perimeter (Typical Arrangement) I-4
I-7 Reinforced Concrete Slab with Radial Grooves for Leak
Detection (Typical Arrangement) I-4
I-8 Typical Drawoff Sump I-5
I-9 Center Sump for Downward-Sloped Bottom I-5
I-10 Typical Leak Detection Wells I-6
I-11 Tanks Supported by Grillage Members (General
Arrangement) I-8
O-1 Example of Under-Bottom Connection with Concrete
Ringwall Foundation O-3
O-2 Example of Under-Bottom Connection with Concrete
Ringwall Foundation and Improved Tank
Bottom and Shell Support O-4
O-3 Example of Under-Bottom Connection with Earth-Type
Foundation O-5
P-1 Nomenclature for Piping Loads and Deformation P-4
P-2A Stiffness Coefficient for Radial Load: Reinforcement on
Shell (L/2a = 1.0) P-5
P-2B Stiffness Coefficient for Longitudinal Moment:
Reinforcement on Shell (L/2a = 1.0) P-5
P-2C Stiffness Coefficient for Circumferential Moment:
Reinforcement on Shell (L/2a = 1.0) P-6
P-2D Stiffness Coefficient for Radial Load: Reinforcement on
Shell (L/2a = 1.5) P-6
P-2E Stiffness Coefficient for Longitudinal Moment:
Reinforcement on Shell (L/2a = 1.5) P-7
P-2F Stiffness Coefficient for Circumferential Moment:
Reinforcement on Shell (L/2a = 1.5) P-7
P-2G Stiffness Coefficient for Radial Load: Reinforcement in
Nozzle Neck Only (L/2a = 1.0) P-8
P-2H Stiffness Coefficient for Longitudinal Moment:
Reinforcement in Nozzle Neck Only (L/2a = 1.0) P-8
P-2I Stiffness Coefficient for Circumferential Moment:
Reinforcement in Nozzle Neck Only (L/2a = 1.0) P-9
P-2J Stiffness Coefficient for Radial Load: Reinforcement in
Nozzle Neck Only (L/2a = 1.5) P-9
P-2K Stiffness Coefficient for Longitudinal Moment:
Reinforcement in Nozzle Neck Only (L/2a = 1.5) P-10
P-2L Stiffness Coefficient for Circumferential Moment:
Reinforcement in Nozzle Neck Only (L/2a = 1.5) P-10
P-3A Construction of Nomogram for b1, b2, c1, c2 Boundary
P-12
P-3B Construction of Nomogram for b1, c3 Boundary P-12
P-4A Obtaining Coefficients YF and YL P-13
P-4B Obtaining Coefficient YC P-15
P-5A Determination of Allowable Loads from Nomogram: FR and
ML P-16
P-5B Determination of Allowable Loads from Nomogram: FR and
MC P-16
P-6 Low-Type Nozzle with Reinforcement in Nozzle Neck Only
(for Sample Problem) P-17
P-7 Allowable-Load Nomograms for Sample Problem P-20
P-8A Stress Factor fR Due to Radial Thrust FR, d/tn = 10
P-45
P-8B Stress Factor fR Due to Radial Thrust FR, d/tn = 30
P-45
P-8C Stress Factor fR Due to Radial Thrust FR, d/tn = 50
P-46
P-8D Stress Factor fR Due to Radial Thrust FR, d/tn = 100
P-46
P-8E Stress Factor fq Due to Radial Thrust FR, d/tn = 10
P-47
P-8F Stress Factor fq Due to Radial Thrust FR, d/tn = 30
P-47
P-8G Stress Factor fq Due to Radial Thrust FR, d/tn = 50
P-48
P-8H Stress Factor fq Due to Radial Thrust FR, d/tn = 100
P-48
P-9A Stress Factor fr Due to Circumferential Moment MC, d/tn
= 10 P-49
P-9B Stress Factor fr Due to Circumferential Moment MC, d/tn
= 30 P-49
P-9C Stress Factor fr Due to Circumferential Moment MC, d/tn
= 50 P-50
P-9D Stress Factor fr Due to Circumferential Moment MC, d/tn
= 100 P-50
P-9E Stress Factor fq Due to Circumferential Moment MC, d/tn
= 10 P-51
P-9F Stress Factor fq Due to Circumferential Moment MC, d/tn
= 30 P-51
P-9G Stress Factor fq Due to Circumferential Moment MC, d/tn
= 50 P-52
P-9H Stress Factor fq Due to Circumferential Moment MC, d/tn
= 100 P-52
P-10A Stress Factor fr Due to Longitudinal Moment ML, d/tn =
10 P-53
P-10B Stress Factor fr Due to Longitudinal Moment ML, d/tn =
30 P-53
P-10C Stress Factor fr Due to Longitudinal Moment ML, d/tn =
50 P-54
P-10D Stress Factor fr Due to Longitudinal Moment ML, d/tn =
100 P-54
P-10E Stress Factor fq Due to Longitudinal Moment ML, d/tn =
10 P-55
P-10F Stress Factor fq Due to Longitudinal Moment ML, d/tn =
30 P-55
P-10G Stress Factor fq Due to Longitudinal Moment ML, d/tn =
50 P-56
P-10H Stress Factor fq Due to Longitudinal Moment ML, d/tn =
100 P-56
P-11 Stress Reduction Factor P-57
V-1A Dimensions for Self-Supporting Cone Roof V-5
V-1B Dimensions for Self-Supporting Dome Roof V-7
Figures in the Body of the Document4-1 Minimum Permissible Design Metal Temperature for Materials Used in Tank Shells without Impact Testing 4-6
4-2 Isothermal Lines of Lowest One-Day Mean Temperatures (°F) °C = (°F – 32)/1.8 4-7
4-3 Governing Thickness for Impact Test Determination of Shell Nozzle and Manhole Materials 4-13
5-1 Typical Vertical Shell Joints 5-2
5-2 Typical Horizontal Shell Joints 5-2
5-3A Typical Roof and Bottom Joints 5-3
5-3B Method for Preparing Lap-Welded Bottom Plates under Tank Shell 5-3
5-3C Detail of Double Fillet-Groove Weld for Annular Bottom Plates with a Nominal Thickness Greater Than 13 mm (1/2 in.) 5-4
5-4 Storage Tank Volumes and Levels 5-7
5-5 Drip Ring (Suggested Detail) 5-9
5-6 Minimum Weld Requirements for Openings in Shells According to 5.7.3 5-19
5-7A Shell Manhole 5-23
5-7B Details of Shell Manholes and Nozzles 5-24
5-8 Shell Nozzles 5-25
5-9 Minimum Spacing of Welds and Extent of Related Radiographic Examination 5-37
5-10 Shell Nozzle Flanges 5-40
5-11 Area Coefficient for Determining Minimum Reinforcement of Flush-Type Cleanout Fittings 5-40
5-12 Flush-Type Cleanout Fittings 5-41
5-13 Flush-Type Cleanout-Fitting Supports 5-42
5-14 Flush-Type Shell Connection 5-46
5-15 Rotation of Shell Connection 5-49
5-16 Roof Manholes 5-51
5-17 Rectangular Roof Openings with Flanged Covers 5-55
5-18 Rectangular Roof Openings with Hinged Cover 5-56
5-19 Flanged Roof Nozzles 5-57
5-20 Threaded Roof Nozzles 5-57
5-21 Drawoff Sump 5-58
5-22 Scaffold Cable Support 5-58
5-23 Grounding Lug 5-62
5-24 Typical Stiffening-Ring Sections for Tank Shells 5-63
5-25 Stairway Opening through Stiffening Ring 5-66
5-26 Some Acceptable Column Base Details 5-74
5-27 Overturning Check for Unanchored Tanks 5-78
6-1 Shaping of Plates 6-2
8-1 Radiographic Requirements for Tank Shells 8-2
10-1 Manufacturer’s Namplate 10-1
10-2 Manufacturer’s Certification Letter 10-2
Figures in the Appendices
AL-1 Cover Plate Thickness for Shell Manholes and Cleanout Fittings AL-11
AL-2 Flange Plate Thickness for Shell Manholes and Cleanout Fittings AL-12
AL-3 Bottom Reinforcing Plate Thickness for Cleanout Fittings AL-13
AL-4 Stresses in Roof Plates AL-16
B-1 Example of Foundation with Concrete Ringwall B-3
B-2 Example of Foundation with Crushed Stone Ringwall B-4
E-1 Coefficient Ci E-10
EC-1 EC-3
EC-2 EC-3
EC-3 EC-4
EC-4 EC-5
EC-5 EC-5
EC-6 EC-6
EC-7 Design Response Spectra for Ground-Supported Liquid Storage Tanks EC-7
EC-8 Effective Weight of Liquid Ratio EC-8
EC-9 EC-8
EC-10 EC-9
EC-11 EC-10
F-1 Appendix F Decision Tree F-2
F-2 Permissible Details of Compression Rings F-3
G-1 Data Sheet for a Structurally-Supported Aluminum Dome Added to an Existing Tank G-2
G-2 Typical Roof Nozzle G-8
I-1 Concrete Ringwall with Undertank Leak Detection at the Tank Perimeter (Typical Arrangement) I-1
I-2 Crushed Stone Ringwall with Undertank Leak Detection at the Tank Perimeter (Typical Arrangement) I-2
I-3 Earthen Foundation with Undertank Leak Detection at the Tank Perimeter (Typical Arrangement) I-2
I-4 Double Steel Bottom with Leak Detection at the Tank Perimeter (Typical Arrangement) I-3
I-5 Double Steel Bottom with Leak Detection at the Tank Perimeter (Typical Arrangement) I-3
I-6 Reinforced Concrete Slab with Leak Detection at the Perimeter (Typical Arrangement) I-4
I-7 Reinforced Concrete Slab with Radial Grooves for Leak Detection (Typical Arrangement) I-4
I-8 Typical Drawoff Sump I-5
I-9 Center Sump for Downward-Sloped Bottom I-5
I-10 Typical Leak Detection Wells I-6
I-11 Tanks Supported by Grillage Members (General Arrangement) I-8
O-1 Example of Under-Bottom Connection with Concrete Ringwall Foundation O-3
O-2 Example of Under-Bottom Connection with Concrete Ringwall Foundation and Improved Tank Bottom and Shell Support O-4
O-3 Example of Under-Bottom Connection with Earth-Type Foundation O-5
P-1 Nomenclature for Piping Loads and Deformation P-4
P-2A Stiffness Coefficient for Radial Load: Reinforcement on Shell (L/2a = 1.0) P-5
P-2B Stiffness Coefficient for Longitudinal Moment: Reinforcement on Shell (L/2a = 1.0) P-5
P-2C Stiffness Coefficient for Circumferential Moment: Reinforcement on Shell (L/2a = 1.0) P-6
P-2D Stiffness Coefficient for Radial Load: Reinforcement on Shell (L/2a = 1.5) P-6
P-2E Stiffness Coefficient for Longitudinal Moment: Reinforcement on Shell (L/2a = 1.5) P-7
P-2F Stiffness Coefficient for Circumferential Moment: Reinforcement on Shell (L/2a = 1.5) P-7
P-2G Stiffness Coefficient for Radial Load: Reinforcement in Nozzle Neck Only (L/2a = 1.0) P-8
P-2H Stiffness Coefficient for Longitudinal Moment: Reinforcement in Nozzle Neck Only (L/2a = 1.0) P-8
P-2I Stiffness Coefficient for Circumferential Moment: Reinforcement in Nozzle Neck Only (L/2a = 1.0) P-9
P-2J Stiffness Coefficient for Radial Load: Reinforcement in Nozzle Neck Only (L/2a = 1.5) P-9
P-2K Stiffness Coefficient for Longitudinal Moment: Reinforcement in Nozzle Neck Only (L/2a = 1.5) P-10
P-2L Stiffness Coefficient for Circumferential Moment: Reinforcement in Nozzle Neck Only (L/2a = 1.5) P-10
P-3A Construction of Nomogram for b1, b2, c1, c2 Boundary P-12
P-3B Construction of Nomogram for b1, c3 Boundary P-12
P-4A Obtaining Coefficients YF and YL P-13
P-4B Obtaining Coefficient YC P-15
P-5A Determination of Allowable Loads from Nomogram: FR and ML P-16
P-5B Determination of Allowable Loads from Nomogram: FR and MC P-16
P-6 Low-Type Nozzle with Reinforcement in Nozzle Neck Only (for Sample Problem) P-17
P-7 Allowable-Load Nomograms for Sample Problem P-20
P-8A Stress Factor fR Due to Radial Thrust FR, d/tn = 10 P-45
P-8B Stress Factor fR Due to Radial Thrust FR, d/tn = 30 P-45
P-8C Stress Factor fR Due to Radial Thrust FR, d/tn = 50 P-46
P-8D Stress Factor fR Due to Radial Thrust FR, d/tn = 100 P-46
P-8E Stress Factor fq Due to Radial Thrust FR, d/tn = 10 P-47
P-8F Stress Factor fq Due to Radial Thrust FR, d/tn = 30 P-47
P-8G Stress Factor fq Due to Radial Thrust FR, d/tn = 50 P-48
P-8H Stress Factor fq Due to Radial Thrust FR, d/tn = 100 P-48
P-9A Stress Factor fr Due to Circumferential Moment MC, d/tn = 10 P-49
P-9B Stress Factor fr Due to Circumferential Moment MC, d/tn = 30 P-49
P-9C Stress Factor fr Due to Circumferential Moment MC, d/tn = 50 P-50
P-9D Stress Factor fr Due to Circumferential Moment MC, d/tn = 100 P-50
P-9E Stress Factor fq Due to Circumferential Moment MC, d/tn = 10 P-51
P-9F Stress Factor fq Due to Circumferential Moment MC, d/tn = 30 P-51
P-9G Stress Factor fq Due to Circumferential Moment MC, d/tn = 50 P-52
P-9H Stress Factor fq Due to Circumferential Moment MC, d/tn = 100 P-52
P-10A Stress Factor fr Due to Longitudinal Moment ML, d/tn = 10 P-53
P-10B Stress Factor fr Due to Longitudinal Moment ML, d/tn = 30 P-53
P-10C Stress Factor fr Due to Longitudinal Moment ML, d/tn = 50 P-54
P-10D Stress Factor fr Due to Longitudinal Moment ML, d/tn = 100 P-54
P-10E Stress Factor fq Due to Longitudinal Moment ML, d/tn = 10 P-55
P-10F Stress Factor fq Due to Longitudinal Moment ML, d/tn = 30 P-55
P-10G Stress Factor fq Due to Longitudinal Moment ML, d/tn = 50 P-56
P-10H Stress Factor fq Due to Longitudinal Moment ML, d/tn = 100 P-56
P-11 Stress Reduction Factor P-57
V-1A Dimensions for Self-Supporting Cone Roof V-5
V-1B Dimensions for Self-Supporting Dome Roof V-7
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