mawp of pipellines cer 04022013 1 (v
TRANSCRIPT
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User
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US" #$ T%IS SP"A'S%""T - A(() I*T"*A( P"SSU" #$ PIPI*G & PIP"(I*"S
'ATA
Standard Values - Commerial pipe data from tables
Input Values - Taken & inserted by the User from the tables of Codes, GPSA book or spei!ed by self
Calulated Value
*otes + Instrutions for the user
Pipelines sizes can be 2" and 3" also. But the spreadsheet is developed from 4" onards.
!his preadsheet enables #uic$ reference and calulations for ma%imum alloable pressurefor a user identi&ed service for in plant process pipin'( li#uid and 'as pipelines. !his is alsouseful for operations persons doin' modi&cations on the pipelines and pipin' as ell as forpreliminer) desi'n chec$s. This is not meant to replae a systemati desinperformed .ith full referenin to the preise appliable lauses+sub-lauses ofthe rela/ant odes and standards)
!he spreadsheet enables to &nd the alloable internal pressure in process plant pipin' asper *+, B31.3. *lso on the same spreadsheet a provision has been made to chec$ its
pressure compatibilit) of the pipeline portion ith either *+, B31.4 -i#uid /)drocarbonpipelines0 or *+, B31. -as pipelines0.or e%ample( assume that a pump dischar'e pipin' located inside the plant * is routed toanother plant B( several miles aa). o the inte'rit) of the entire s)stem is divided intopipin' in the plant * -built as per B31.30( the pipeline beteen the to plants -built as perB31.4 for li#uids or B31. for 'as pipelines as the case ma) be0 and the pipin' in the plant B -built as per B31.30( can be chec$ed simultaneousl) usin' this spreadsheet.
3. Please note that the calculations in table are done usin' some values. * user can useeach ro for the sizes and input data of his re#uirement b) insertin' the values in blac$cells. Blue font cells contain standard commercial pipe data alread) incorporated in thespreadsheet. alculated results are in reen font cells. ser should $no nominal pipe size(schedule no.( material( material 'rade( method of pipe production -,8( eamleass etc.0(desi'n temperature( location for 'as lines( and corrosion alloance to be 'iven.
!)pe * construction also applicable to "i#uid Petroleum !ransportation Pipin' ode." *9:B31.41;7;. sers ma) refer to the latest versions of the *+, tandards and P* boo$for correctness. ome of the tables are from older versions.
Please note that the !able nos. mentioned the or$sheets !able 1(2(3 < 4( :. 1723( 24(25( 26( 27 < 2 -!he letters !( ( =( , are added on each sheet name alon' ith !able or i'no. so that )ou can #uic$l) select the appropriate reference or$sheet0 refer to the tablenos. in P* boo$ > *pplicable tandard from here the) are produced.
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eferenes for Spreadsheet 'e/elopment
0) GPSA "n) %andbook, 00h "d, 01123) AS4" 560)6 3772, AS4" 560)8 3703& AS4" 560)2 3707
6) Properties of Commerial Pipe, pipindesiners)om
GPSA - Gas Proessors & Suppliers Assoiation
AS4" - Amerian Soiety of 4ehanial "nineers
or an) interpretation clari&cations of tress ?alues( notes and material related factors ordata( ala)s refer to the ,n'ineers ho are ell versed ith codes interpretation orassi'ned ith material department.
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Allo.ab
$ont Color AS4" 560)6 3772
Standard Values 5lue In-Plant Pipin
User Input Values 5lak Pi @2AtA(pipeA,A8>-o2AtA=0
Calulated Value Green t((,(o(=(8
6 values
!he 8eld Coint tren'th eductionactor D8D belo EE is 1.EE.
!he values are in or$sheetnamed " !able 5 8".
t @ t(nominal +ill !ollerance*lloance orrosion *lloance
$or 60)8 and 60)2 ode pipelines,alulation) Pls) see belo.)
403.2.2 Wall Thickness and Defectshall be as specied in applicablereference in Mandatory ppendi!for underthickness tolerance andstandards% no additional allo$anc%o.e/er, for 60)6 pipin, mill tole
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le Internal Pressure Calulation "9uation
AS4" 560)8 3703 AS4" 560)2 3707
(i9uid Pipelines Gas Pipelines
Pi @2AtA(pipelineA,-E.720>o Pi @2AtA(pipelineA,AA!0>o
t((,(o(, t((,(o(,((!
5 values 7 values
t @ t(nominal orrosion *lloance
i#uid Pipelines are desi'ned fortemperatures belo 25E .
t @ t(nominal orrosion*lloance
o not onsider mill toleranes) The nominal thk is used in the
Tolerances.Wall thickness tolerances and defect tolerances for pipepipe specications or dimensional standards included in this Code by. Desi#n factors in this Code $ere established $ith due considerationa!imum allo$able depth of imperfections allo$ed by the referencedis necessary
anes are to be subtrated)
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Color ode of Values in the Table
Standard Values
User Input Values
Calulated Value
Sh *o :eiht
7)28
87
27
0;7
0)7>S
0;7
07 ?07)=S
27
077
037
087
0;7
03)=< 37
. . . XXS
. . . . . .
. . . . . .
40 Std
80 XS
160 . . .
. . . XXS
. . . . . .
. . . . . .
40 Std
80 XS
160 . . .
. . . XXS
. . . . . .
. . . . . .
160 . . .
. . . XXS
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03 ?03)=S
27
077037
087
0;7
08 08 07
37
67 Std
87
>S
;7
;7;7
27
077
037
087
0;7
0; 0; 07
37
67 Std
87 >S;7
27
077
037
087
0;7
02 02 07
37
Std
67
>S
87
;7
27
077
037
087
0;7
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37 37 07
37 Std
67 >S
87
;7
27
077037
087
0;7
33 33 07
37 Std
67 >S
;7
27
077
037087
0;7
38 38 07
37
67
87
;7
27
077
037087
0;7
3; 3; 07
Std
37 >S
32 32 07
Std
37
67
>s
67 67 07
Std
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37
67
87 >S
63 63 07Std
37 >S
67
87
68 68 07
Std37 >S
67
87
6; 6; 07
Std
37 >S67
87
83 83 Std
37 >S
67
87
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eferene 'ata Tables US" I*PUT
Pipe thikness, t Calulated Pipe thikness Value for pressure desin after applyin fat
$lane ratins efer $i 0=)32 $i 0=)32 to hek Pressure & Temp ompatibility US" I
All) Stress, S,pipe :orkSheet $i 0=)3< Corrosion
Sp)4in)Bield Strenth, S,pipeline :orkSheet $i 0=)3< mm
Temp 'eratin $ator, T :ork Sheet Table 0 for Gas pipelines 1.5
(ontudanal :eld $ator, " :ork Sheet Table 8 for all 3(oation Class+Type, $ :ork Sheet Table 3 for Gas pipelines 6
Values of Co-"t) B :ork Sheet Table 6 for Pipin 3.175
:all Thk, in
8all !h$ t(nom % E.75 ser :nput
E.E65 E.71E E.E65 E.E57 E.EEE
E.E3 E.674 E.E3 E.E73 E.EEE
E.1E; E.622 E.1E; E.E;5 E.EEE
E.147 E.546 E.147 E.12; E.EEE
E.17 E.466 E.17 E.164 E.E5;E.2;4 E.252 E.2;4 E.257 E.E5;
E.E65 E.;2E E.E65 E.E57 E.EEE
E.E3 E.4 E.E3 E.E73 E.EEE
E.113 E.24 E.113 E.E;; E.EEE
E.154 E.742 E.154 E.135 E.E5;
E.21 E.614 E.21 E.1;1 E.EEE
E.3E E.434 E.3E E.27E E.EEE
E.E65 1.175 E.E65 E.E57 E.EEE
E.1E; 1.E7 E.1E; E.E;5 E.EEE
E.133 1.E3; E.133 E.116 E.EEEE.17; E.;47 E.17; E.157 E.E5;
E.25E E.E5 E.25E E.21; E.EEE
E.35 E.5; E.35 E.313 E.EEE
E.E65 1.77E E.E65 E.E57 E.EEE
E.1E; 1.62 E.1E; E.E;5 E.EEE
E.145 1.61E E.145 E.127 E.EEE
E.2EE 1.5EE E.2EE E.175 E.E5;
E.21 1.33 E.21 E.246 E.EEE
'i
Inside'ia, in
t-nominalThikness,
in
t-minmill tolerane
in
CACorrosionAllo.ane
in
User Spei!edValue
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E.4EE 1.1EE E.4EE E.35E E.EEE
E.E65 2.245 E.E65 E.E57 E.EEE
E.1E; 2.157 E.1E; E.E;5 E.EEE
E.154 2.E67 E.154 E.135 E.EEE
E.21 1.;3; E.21 E.1;1 E.E5;
E.343 1.6; E.343 E.3EE E.EEE
E.436 1.5E3 E.436 E.32 E.EEEE.E3 3.334 E.E3 E.E73 E.E5;
E.12E 3.26E E.12E E.1E5 E.E5;
E.216 3.E6 E.216 E.1; E.E5;
E.3EE 2.;EE E.3EE E.263 E.E5;
E.437 2.626 E.437 E.32 E.E5;
E.6EE 2.3EE E.6EE E.525 E.E5;
E.E3 4.334 E.E3 E.E73 E.E5;
E.12E 4.26E E.12E E.1E5 E.E5;
E.237 4.E26 E.237 E.2E7 E.E5;
E.337 3.26 E.337 E.2;5 E.E5;E.437 3.626 E.437 E.32 E.E5;
E.531 3.43 E.531 E.465 E.E5;
E.674 3.152 E.674 E.5;E E.E5;
E.2E 6.E65 E.2E E.245 E.E5E
E.432 5.761 E.432 E.37 E.11
E.562 5.5E1 E.562 E.4;2 E.11
E.71 5.1; E.71 E.62 E.11
E.64 4.;7 E.64 E.756 E.11
E.25E .125 E.25E E.21; E.11
E.277 .E71 E.277 E.242 E.11E.322 7.;1 E.322 E.22 E.11
E.4E6 7.13 E.4E6 E.355 E.11
E.5EE 7.625 E.5EE E.43 E.11
E.5;3 7.43; E.5;3 E.51; E.11
E.71 7.1; E.71 E.62 E.11
E.12 7.EE1 E.12 E.711 E.11
E.75 6.75 E.75 E.766 E.11
E.;E6 6.13 E.;E6 E.7;3 E.11
E.25E 1E.25E E.25E E.21; E.11
E.3E7 1E.136 E.3E7 E.26; E.11E.365 1E.E2E E.365 E.31; E.11
E.5EE ;.75E E.5EE E.43 E.11
E.5;3 ;.564 E.5;3 E.51; E.11
E.71 ;.314 E.71 E.62 E.11
E.43 ;.E64 E.43 E.73 E.11
1.EEE .75E 1.EEE E.75 E.11
1.125 .5EE 1.125 E.;4 E.11
E.25E 12.25E E.25E E.21; E.11
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E.33E 12.E;E E.33E E.2; E.11
E.375 12.EEE E.375 E.32 E.11
E.4E6 11.;3 E.4E6 E.355 E.11
E.5EE 11.75E E.5EE E.43 E.11
E.562 11.626 E.562 E.4;2 E.11
E.67 11.376 E.67 E.6E1 E.11
E.43 11.E64 E.43 E.73 E.111.EEE 1E.75E 1.EEE E.75 E.11
1.125 1E.5EE 1.125 E.;4 E.11
1.312 1E.126 1.312 1.14 E.11
E.25E 13.5EE E.25E E.21; E.11
E.312 13.376 E.312 E.273 E.11
E.375 13.25E E.375 E.32 E.11
E.437 13.126 E.437 E.32 E.11
E.5EE 13.EEE E.5EE E.43 E.11
E.562 12.76 E.562 E.4;2 E.11
E.5;3 12.14 E.5;3 E.51; E.11E.625 12.75E E.625 E.547 E.11
E.75E 12.5EE E.75E E.656 E.11
E.;37 12.126 E.;37 E.2E E.11
1.E;3 11.14 1.E;3 E.;56 E.11
1.25E 11.5EE 1.25E 1.E;4 E.11
1.4E6 11.1 1.4E6 1.23E E.11
E.25E 15.5EE E.25E E.21; E.11
E.312 15.376 E.312 E.273 E.11
E.375 15.25E E.375 E.32 E.11
E.5EE 15.EEE E.5EE E.43 E.11E.656 14.6 E.656 E.574 E.11
E.43 14.314 E.43 E.73 E.11
1.E31 13.;3 1.E31 E.;E2 E.11
1.21 13.564 1.21 1.E66 E.11
1.437 13.126 1.437 1.257 E.11
1.5;3 12.14 1.5;3 1.3;4 E.11
E.25E 17.5EE E.25E E.21; E.11
E.312 17.376 E.312 E.273 E.11
E.375 17.25E E.375 E.32 E.11
E.437 17.126 E.437 E.32 E.11
E.5EE 17.EEE E.5EE E.43 E.11
E.562 16.76 E.562 E.4;2 E.11
E.75E 16.5EE E.75E E.656 E.11
E.;37 16.126 E.;37 E.2E E.11
1.156 15.6 1.156 1.E12 E.11
1.375 15.25E 1.375 1.2E3 E.11
1.562 14.76 1.562 1.367 E.11
1.71 14.43 1.71 1.55 E.11
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E.25E 1;.5EE E.25E E.21; E.11
E.375 1;.25E E.375 E.32 E.11
E.437 1;.126 E.437 E.32 E.11
E.5;3 1.14 E.5;3 E.51; E.11
E.12 1.376 E.12 E.711 E.11
1.E31 17.;3 1.E31 E.;E2 E.11
1.21 17.43 1.21 1.121 E.111.5EE 17.EEE 1.5EE 1.313 E.11
1.75E 16.5EE 1.75E 1.531 E.11
1.;6 16.E64 1.;6 1.722 E.11
E.25E 21.5EE E.25E E.21; E.11
E.375 21.25E E.375 E.32 E.11
E.5EE 21.EEE E.5EE E.43 E.11
E.625 2E.75E E.625 E.547 E.11
1.125 1;.75E 1.125 E.;4 E.11
1.375 1;.25E 1.375 1.2E3 E.11
1.625 1.75E 1.625 1.422 E.111.75 1.25E 1.75 1.641 E.11
2.125 17.75E 2.125 1.5; E.11
E.25E 23.5EE E.25E E.21; E.11
E.375 23.25E E.375 E.32 E.11
E.562 22.76 E.562 E.4;2 E.11
E.67 22.626 E.67 E.6E1 E.11
E.;6 22.E64 E.;6 E.47 E.11
1.21 21.564 1.21 1.E66 E.11
1.531 2E.;3 1.531 1.34E E.11
1.12 2E.376 1.12 1.56 E.112.E62 1;.76 2.E62 1.E4 E.11
2.343 1;.314 2.343 2.E5E E.11
E.25E 25.5EE E.25E E.21; E.11
E.375 25.25E E.375 E.32 E.11
E.5EE 25.EEE E.5EE E.43 E.11
E.75 24.25E E.75 E.766 E.11
1.EEE 24.EEE 1.EEE E.75 E.11
1.125 23.75E 1.125 E.;4 E.11
E.312 27.376 E.312 E.273 E.11
E.375 27.25E E.375 E.32 E.11
E.5EE 27.EEE E.5EE E.43 E.11
E.625 26.75E E.625 E.547 E.11
E.75E 26.5EE E.75E E.656 E.11
E.75 26.25E E.75 E.766 E.11
1.EEE 26.EEE 1.EEE E.75 E.11
1.125 25.75E 1.125 E.;4 E.11
E.312 2;.376 E.312 E.273 E.11
E.375 2;.25E E.375 E.32 E.11
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E.5EE 2;.EEE E.5EE E.43 E.11
E.625 2.75E E.625 E.547 E.11
E.75E 2.5EE E.75E E.656 E.11
E.75 2.25E E.75 E.766 E.11
1.EEE 2.EEE 1.EEE E.75 E.11
1.125 27.75E 1.125 E.;4 E.11
E.312 31.376 E.312 E.273 E.11E.375 31.25E E.375 E.32 E.11
E.5EE 31.EEE E.5EE E.43 E.11
E.625 3E.75E E.625 E.547 E.11
E.6 3E.624 E.6 E.6E2 E.11
E.75E 3E.5EE E.75E E.656 E.11
E.75 3E.25E E.75 E.766 E.11
1.EEE 3E.EEE 1.EEE E.75 E.11
1.125 2;.75E 1.125 E.;4 E.11
E.312 33.376 E.312 E.273 E.11
E.375 33.25E E.375 E.32 E.11E.5EE 33.EEE E.5EE E.43 E.11
E.625 32.75E E.625 E.547 E.11
E.6 32.624 E.6 E.6E2 E.11
E.75E 32.5EE E.75E E.656 E.11
E.75 32.25E E.75 E.766 E.11
1.EEE 32.EEE 1.EEE E.75 E.11
1.125 31.75E 1.125 E.;4 E.11
E.312 35.376 E.312 E.273 E.11
E.375 35.25E E.375 E.32 E.11
E.5EE 35.EEE E.5EE E.43 E.11E.625 34.75E E.625 E.547 E.11
E.6 34.624 E.6 E.6E2 E.11
E.75E 34.5EE E.75E E.656 E.11
E.75 34.25E E.75 E.766 E.11
1.EEE 34.EEE 1.EEE E.75 E.11
1.125 33.75E 1.125 E.;4 E.11
E.375 41.25E E.375 E.32 E.11
E.5EE 41.EEE E.5EE E.43 E.11
E.625 4E.75E E.625 E.547 E.11
E.6 4E.624 E.6 E.6E2 E.11
E.75E 4E.5EE E.75E E.656 E.11
E.75 4E.25E E.75 E.766 E.11
1.EEE 4E.EEE 1.EEE E.75 E.11
1.125 3;.75E 1.125 E.;4 E.11
1.5EE 3;.EEE 1.5EE 1.313 E.11
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rs, t alulation of pipes is dierent from pipelines
*PUT US" I*PUT
llo.ane :eld oint Strenth edution
inches :orksheet Table < *ote $or tempD
E.E5;
E.11E.236
E.125
t(min * t(nom .*. psi 0 to 1.0 0 to 1.0
E.E57 E.E65 2E(EEE 1.EE 1.EE
E.E73 E.E3 2E(EEE 1.EE 1.EE
E.E;5 E.1E; 2E(EEE 1.EE 1.EE
E.12; E.147 2E(EEE 1.EE 1.EE
E.1E5 E.12 2E(EEE 1.EE 1.EEE.1; E.235 2E(EEE 1.EE 1.EE
E.E57 E.E65 2E(EEE 1.EE 1.EE
E.E73 E.E3 2E(EEE 1.EE 1.EE
E.E;; E.113 2E(EEE 1.EE 1.EE
E.E76 E.E;5 2E(EEE 1.EE 1.EE
E.1;1 E.21 2E(EEE 1.EE 1.EE
E.27E E.3E 2E(EEE 1.EE 1.EE
E.E57 E.E65 2E(EEE 1.EE 1.EE
E.E;5 E.1E; 2E(EEE 1.EE 1.EE
E.116 E.133 2E(EEE 1.EE 1.EEE.E; E.12E 2E(EEE 1.EE 1.EE
E.21; E.25E 2E(EEE 1.EE 1.EE
E.313 E.35 2E(EEE 1.EE 1.EE
E.E57 E.E65 2E(EEE 1.EE 1.EE
E.E;5 E.1E; 2E(EEE 1.EE 1.EE
E.127 E.145 2E(EEE 1.EE 1.EE
E.116 E.141 2E(EEE 1.EE 1.EE
E.246 E.21 2E(EEE 1.EE 1.EE
t, pressure'esinPipin
in
t, pressure'esinPipeline
in
S,pipe
AllowableStress
ELongitdanal !eld
"a#tor
!!eld Strengt$
%ed. "a#tor
Please note the FtF alulated forpipin ?olumn (@ and pipelines
?Column 4@ is dierent
efer Table A0of AS4" 60)6or $IG 0=-32 9i *!+ *333 3 65EEE 35EEE3 1>2 9i *!+ *334 3 65EEE 35EEE
9iru*l *!+ *333 4 6EEEE 35EEE
2 1>4 9i *!+ *333 7 65EEE 35EEE
2 1>4 9i *!+ *334 7 65EEE 35EEE
; 9i *!+ *333 1EEEEE 75EEE
; 9i *!+ *334 1EEEEE 75EEE
1r9i Pipe *!+ *376 !P3E4 75EEE 3EEEE
1r9i Pipe *!+ *376 !P3E4/ 75EEE 3EEEE
$IG)
Please refer the odes AS4" 5 60)6, 60)8 or
$ator?"@
TensileStrenthmin) psi
SpipelineBield
Strenthmin) psi
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9ote I !hese notes are re#uirements of the ode. !hose mar$ed ith an asteris$-A0 restatreference to *9:>*+, B31.3a1;4 ,dition.
-10A !he stress valves in !able *1 and the desi'n stress values in !ables *2 are basic allo,
Cfrom !able *1B0. tress values in shear and bearin' are stated in 3E2.3.1 -b0Y those in c
-30A !his castin' #ualit) factor can be enhanced b) supplementar) e%amination in accord
-40A :n shaded areas( stress values printed in italics e%ceed tothirds of the e%pected )iel
-60A !he minimum temperature shon is that desi'n minimum temperature for hich the2ER K2;RL is established b) rules elsehere in this ode( includin' an) necessar) impa
-7A0 * sin'le bar -l0 in these tress !ables indicates there are conditions other than stressabove that temperature. * double bar -ll0 before the stress valve for "+in. !emp. to 1EER"accordance ith 323.2 unless prohibited b) a double bar-ll0.
-0A !here are restrictions on the use of this material in the te%t of the ode.
-2E0 or pipe sizes 9P and lar'er and for all thic$nesses of schedule 14E or heavier( t
-260 !hese unstabilized 'rades of stainless steel have increasin' tendenc) to inter'ranula
-20 or temperatures above 1EEER K53RL( these stress valves appl) onl) hen the car
-3E0 or temperatures above 1EEERK53RL( these stress values ma) be used onl) if the m
-310 or temperatures above 1EEER K53RL( these stress valves ma) be used onl) if the
-360 !he speci&cation permits this material to be furnished ithout solution heat treatmentested per 323.3.
-4E0 !he stress values for austenitic stainless steels in these !ables ma) not be applicable-310.
-470 :f no eldin' is emplo)ed in fabrication of pipin' from those materials( the stress val
-510 pecial P9umbers P1( P2( and P3 of carbon steels are not included in P9o. 1 bbe e%tended to other 'rades in its 'roup.
-550 Pipe produced to this speci&cation is not intended for hi'h temperature service. !he
-570A onversion of carbides to 'raphite ma) occur after prolon'ed e%posure to temperat
-5;0A or temperatures above ;EER K4ERL( consider the advanta'es of $illed steel Ksee
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*otes
377 677 877
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re#uirements found in the te%t of the ode. !he other 9otes are limitations or special re#
able stresses in tension in accordance ith 3E2.3.1-a0. or pressure desi'n( the stress valompression in 3E2.3.1-c0.
nce ith 3E2.3.3-c0 and !able 3E2.3.3c. !he hither factor from !able 3E2.3.3. ma) be sub
d stren'th at temperature. *ll other stress values in shaded areas are e#ual to ;EO of e%p
material is normall) suitable ithout impact testin' other than that re#uired b) the materit test re#uirements.
hich aSect usa'e above or belo the temperature( as described in other referenced noteindicates that the use of the material is prohibited belo the listed minimum temperature.
e minimum speci&ed tensile stren'th is 7E.E $si K43 +PaL.
carbide precipitation as the carbon content increases above E.E3O.
on content is E.E4O or hi'her.
terial has been heat treated at a temperature of 2EEER K1E;ERL minimum.
aterial has been heat treated b) heatin' to a minimum temperature of 1;EER K1E4ERL a
t or ith other than a solution heat treatment. 8hen the material has not been solution he
if the material has been 'iven a &nal heat treatment other than that re#uired b) the mate
es ma) be increased to 33.3 $si K23E +PaL.
cause of possible hi'h carbon( hi'h man'anese combination hich ould re#uire special
tress values appl) to either none%panded or cold e%panded material in the asrolled( nor
res over EER K425RL -see *ppendi% 0.
ppendi% L.
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;
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irements applicable to particular materials. ull interpretation of these notes ill re#uire
ues from !able *1 are multiplied b) the appropriate #ualit) factor , -, c from !able *1*( or
stituted for this factor in pressure desi'n e#uations.
cted )ield stren'ht at temperature. ee 3E2.3.2-d0-40 and 3E2.3.2-d0 K9ote -30L
l speci&cation. /oever( the use of a material at a desi'n minimum temperature belo
. * double bar -ll0 after a tabled stress indicates that use of the material is prohibited. *t temperatures here there are no stress values( the material ma) be used in
nd #uenchin' in ater or rapidl) coolin' b) other means.
at treated the minimum temperature shall be 2ER K2;RL unless the material is impact
ial speci&cation and an) overridin' re#uirements of this ode called for b) 9otes -3E0 or
onsideration in #uali&cation. [uali&cation of an) hi'h carbon( hi'h man'anese 'rade ma)
alized( or normalized and tempered condition.
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#)') in)
Allo.abl
-37 to 077
1>2 4E .51 .4E .1E; .EE211 225
3>4 1.E5E
1 1.315
11>2 1.;EE
2 2.375
3 3.5EE
$IG) 0=-3; ?GPSA 5'esin Properties and Allo.able .orki
AST4 A07;, Grade 5 Seamless pipe-Petrofor Pressure Pipin A*SI 560)6-0128-Co
*omPipeSiein)
Sh)*o)
:eihtof
pipeIb)+ft)
:allthk)in)
I '?d@in)
$lo.areas9 ft
.622
4EZE
1.1311.474
.113
.154.24.742
.EE371
.EE3EE1;333451
4EZE16EZZ
1.67;2.1722.443.65;
.133
.17;
.25E
.35
1.E4;.;57.15.5;;
.EE6EE
.EE4;;
.EE362
.EE1;6
21E3346572E;534
4EZE
16EZZ
2.713.632
4.666.4E;
.145
.2EE
.21.4EE
1.61E1.5EE
1.331.1EE
.E1414
.E1225
.EE;76.EE66E
16722777
44;4722
4EZE16EZZ
3.6535.E227.445;.E3E
.154
.21
.343
.436
2.E671.;3;1.671.5E3
.E233E
.E2E5E
.E1556
.E1232
146;2446EE624
4EZE16EZZ
7.51E.2514.331.5
.216
.3EE
.43
.6EE
3.E62.;EE2.6242.3EE
.E513E
.E457
.E3755
.E25
164E255241226E;
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4 4.5EE
6 6.625
.625
1E 1E.75E
12 12.75E
14 14.EEE
16 16.EEE
1 1.EEE
4EZE16EZZ
1E.7;14.;;22.5127.54
.237
.337
.531
.674
4.E263.263.433.152
.E4E
.E7;6
.E6447
.E541;
143;22753;753E7
4EZE16EZZ
1.;2.545.3E53.17
.2E
.432
.71
.64
6.E655.7615.174.;7
.2EE6
.11E
.146;
.13E
12E52E623753465;
4EZEZZ16E
2.5643.472.474.7
.322
.5EE
.75
.;E6
7.;17.6256.756.13
.3474
.3171
.257
.2532
1E;164355436;;
4EZ6E16E
4E.554.7
115.7
.365
.5EE1.125
1E.E2E;.75E.5EE
.5475
.515
.3;41
1E221443736
Z
16E
4;.665.4
16E.3
.375
.5EE1.312
12.EEE11.75E1E.126
.754
.752
.55;2
124536;;
1E3EZ
36.754.672.1
.25E
.375
.5EE
13.5EE13.25E13.EEE
.;;4E
.;575
.;211
46E7
1132
1E3E4E
42.162.62.
.25E
.375
.5EE
15.5EE15.25E15.EEE
1.31E1.261.227
4257E5;7
1EZ
47.47E.6;3.5
.25E
.375
.5EE
17.5EE17.25E17.EEE
1.67E1.6221.575
37762576
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2E 2E.EEE
24 24.EEE
1E2EZ3E
52.77.6
1E4.1
.25E
.375
.5EE
1;.5EE1;.25E1;.EEE
2.E742.E211.;6;
33;56277
1E
2EZ3E
63.4
;4.6125.5
.25E
.375
.5EE
23.5EE
23.25E23.EEE
3.E12
2.;42.3
22
4666E
*#T" The abo/e allo.able .orkin pressures are alulated from $i) 0=-36 usin a redreonie mill .all tolerane of 03)
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.orkin pressures for temperatures ?in H$@ not to eKeed)
377 677 877
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143;22753;753E7
143;22753;753E7
143;22753;753E7
136E215E376E5E15
12441;6344145;E
117177322437
12E52E623753465;
12E52E623753465;
12E52E623753465;
113;1;4354644E3
1E4217332464E3E
;;417E13E;7344
1E;164355436;;
1E;164355436;;
1E;164355436;;
1E371761335;34;6
;5E16123E7432EE
;E615372;323E52
1E221443736
1E221443736
1E221443736
;6614E33531
41243232
4312243E2
124536;;
124536;;
124536;;
3;117734;6
761E7732EE
7321E273E52
46E7
1132
46E7
1132
46E71132
46E763
1E6;
4216;;7;
4E1666;34
4257E5;7
4257E5;7
4257E5;7
4E2666;33
366E;54
3515115
37762576
37762576
37762576
3575;12
326541757
311516722
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33;56277
33;56277
33;56277
321531743
2;3466E
2E46464;
22
467654
22
467654
22
467654
267
44261
244
4E4565
233
3653;
ution in tm to 2=)
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#)')Type A) $ E 7)=3Q
G)5
6
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.25E 1461 1753 1;2E 217E
.277 161 1;42 212 24E5
.312 123 21; 23; 27E;
.322 12 225 2473 27;6
.344 2E11 2412 2642 2;
.375 21;1 262 2E 3256
.43 256E 3E71 3364 3E3
.5EE 2;22 35E6 34E 4341
1E
.1 1 1E5 115 131E
.2E3 ;5; 1143 1251 1415
.21; 1E26 1231 134 1525
.25E 1172 14E7 154E 1741
.27; 13E; 157E 171; 1;44
.3E7 144E 172 1;2 213
.344 1613 1;35 212E 23;6
.365 1711 2E54 224; 2542
.43 2E54 2464 27EE 3E51
.5EE 2344 213 3E1 343
12
.1 743 ;2 ;77 11E4
.2E3 E3 ;63 1E55 11;3
.21; 66 1E3; 113 127
.25E ; 116 12;; 146
.21 1111 1332 146E 1651
.312 1233 14E 162E 132
.33E 13E5 1566 1715 1;3;
.344 135; 1631 176 2E2E
.375 142 177; 1;4 22E2
.4E6 16E6 1;26 211E 235
.43 1732 2E77 2275 2572
.5EE 1;76 2372 25; 2;36
!)pe * con
.625-!0
1E.75E-!0
12.75E-!0
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Allo.able :orkin Pressures up to 3
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1217 1461 16EE 1E; 1E14 1217 1333
134; 161 1773 2EE4 1124 134; 147
152E 123 1;;7 225 1266 152E 1664
156 12 2E61 232; 13E7 156 1717
1676 2E11 22E2 24;E 13;6 1676 135
126 21;1 23;; 2713 1521 126 1;;;
2133 256E 2E4 317E 177 2133 23362435 2;22 32EE 3617 2E2; 2435 2667
733 1 ;65 1E;1 612 735 E4
7;4 ;52 1E43 117; 661 7;4 6;
55 1E26 1124 1271 713 55 ;36
;77 1172 124 1451 14 ;77 1E7E
1E;1 13E; 1433 162E ;E; 1E;1 11;4
12EE 144E 1577 172 1EEE 12EE 1314
1344 1613 1767 1;;7 112E 1344 1473
1426 1711 174 211; 11 1426 1562
1712 2E54 225E 2543 1426 1712 1751;53 2344 2567 2;E2 162 1;53 214E
61; 743 14 ;2E 516 61; 67
66; E3 7; ;;5 55 66; 733
722 66 ;4 1E73 6E1 722 7;E
24 ; 1E2 1224 66 24 ;E2
;26 1111 1217 1376 771 ;26 1E14
1E2 1233 135E 1527 56 1E2 1125
1E 13E5 143E 1616 ;E6 1E 11;1
1133 135; 14 163 ;44 1133 124E
1235 142 1624 135 1E2; 1235 1353
133 16E6 175 1; 1115 133 1465
1443 1732 1;6 2144 12E3 1443 15E
1647 1;76 2165 2447 1373 1647 1E4
truction also applicable to "i#uid Petroloum !ransportation Pipin' ode." *9: B31.41;7;
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)
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15E7 12 ;74 1E67 12E6
167E ;; 1E7; 112 1336
11 1E13 1216 1331 15E5
1;41 1E45 1254 1374 1553
2E75 1117 134E 146 166E
2261 1217 146E 15;; 1E
2641 1422 17E6 16; 21133E14 1623 1;4 2133 2412
;E; 4;E 5 644 72
;3 52; 635 6;5 76
1E5; 57E 64 74; 47
12E; 651 71 56 ;67
135E 727 72 ;55 1EE
146 EE ;6E 1E51 11;
1664 ;6 1E75 117 1331
1766 ;51 1141 124; 1412
211; 1141 136; 15EE 16;5241; 13E2 1563 1712 1;35
767 413 4;5 543 613
2; 446 535 56 663
;4 41 577 632 715
1E2E 54; 65; 722 16
1146 617 74E 11 ;17
1273 65 22 ;EE 1E1
1346 725 7E ;53 1E77
14E3 755 ;E6 ;;2 1122
152; 24 ; 1E2 1224
1656 ;2 1E7E 1172 1325
176 ;62 1154 1264 142;
2E3; 1E; 131 1443 1631
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G
#)') :all Thk) Type A)$ E 7)=3Q
G)5
6
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3;
67
3;)777?ST'@
.21
.312
.344
.375
.4E6
.43.5EE
.625
.75E
5456E466772677
4;6;12111454
654727EE72;45
1E1116314541745
7177;676;55
1E35
1115127415;21;11
1E;EE;;E
1EE117E
126E144E1EE216E
;341E3711431246134;
145616622E7724;2
?ST'@
67)777
.312
.344
.375
.4E6
.43.5EE
.625
.75E
5255763E62
7354E1E5E126E
63E6;37561;
21EE126E1512
6;E75;2;7
;6611E413E1656
7E5;36
1E14
1E;2124156E172
;;;;11EE116;
1261144E1EE216E
Type A Constrution also appliable to Q(i9uid Petroleum Transport Pipin Cod*otes 0) All dimensions are in inhes
3) See $i) 0=-38
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as Transmission and 'istribution Pipin
Constrution Type 'esin $ators
Type 5)$ E 7);7 Type C)$ E 7)
G)5 G)5
6
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4545E35566E6656
7E7E1E1E1212
5456E466672777
4;6;12121454
5;766373E7;663
;2;1E62132715;2
67575E25;EE;75
1E5E12EE15EE1EE
7764;531E3;1124
121313517312E77
37;4214635E5547
5;67341
1E1E
4545E55556E6656
7E7E1E1E1212
4;5536E666371;
774511E61327
434252556
6127EE75
1E5E
52557763E62
7354E1E5E126E
5756326;E747
E5;2E115E13E
65E7157E45
;1E1E4E13EE156E
74;26;EE;74
1E5112EE15EE1EE
3654E1437474
51E5372;75
434152556;
6127EE75
1E5E
47;527575623
671767;5
115E
,QA*SI 560)8-01=1
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563625675E13
751EEE125E15EE
64;72E7;466;37
1E11115414421731
3E333737E4E4437
47153673E
3634E444445525
565646E;6;
3;44247531575
61;7E51E62
45E5EE55E6EE65E
7EEEE1EEE12EE
51;5766356;275E
E;;231154135
5425;665E7E4
75671E313EE
624675E12
761EEE125E15EE
2;232135E37;
4E467537EE
35E3542E455
4;E56E7EE4E
3342246E4;
537613767;2E
43347752E563
6E76;367
1E4E
4;;55E6EE65E
7E1EE1EEE12EE
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CLASS 0
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EE5E;EE
E655E
3;53;E35
52552E51E
7;E7E77E
11E1165115E
1;7E1;451;2E
;5E1EEE1E5E
11EE
352E
37532531E
26E
5EE43E41E
345
75E64562E
515
1125;65;25
77E
17E161E1545
125115E12EE125E13EE
1;515511E5
26E2E514511E
3;E31E22E165
5546533E245
;E77E55E41E
135E14EE145E15EE
6E5E3525
565453E
125;E7E5E
151451E57E
31E24E17E12E
*otes ?a@ Permissible but not reommended for proloned use abo/e 277H$ ?d@ *ot to be used o/er ;
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3
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32E324E32EE
312E265257E
2145163E125;1565
5154EE252EE
@, the arbide phase of arbonsteel
tent is 7)78 perent or hiher eat treated by heatin it to a
rapidly oolin by other means)
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7/21/2019 MAWP of Pipellines CER 04022013 1 (V
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httpI>>.cheresources.com>invision>&les>&le>2;3ma%imumalloablepressu
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eofpipesandpipelines>