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Document Responsibility: Heat Transfer Equipment Standards Committee 32-SAMSS-007
Issue Date: 26 June 2017
Next Planned Update: 26 June 2020 Manufacture of Shell and Tube Heat Exchangers

shall contain a minimum of four tubes and shall be prepared using the same
materials and fabrication procedures (including heat treatment) as are to be
used in actual production. Approval from the Saudi Aramco Inspector is
required prior to start of production. No need to repeat the test if similar joint
design was done in the past 6-months.

9.12 Forming and Heat Treatment

9.12.1 General
a) Cold forming for carbon steels shall be performed at temperatures
within the range of above 20°C (68°F) and below 120°C (248°F).
b) Hot forming is any forming performed above the austenite phase start
temperature of 740°C (1364°F).
c) All tempering heat treatments for all carbon steels must be at least
25°C (45°F) above the nominal PWHT temperature as given in the
applicable ASME code for the respective material. The tempering
temperature must not exceed the temperature stated in the steel
manufacturers Material Test Certificate.
d) There are no restrictions for tempering temperature of 1 Cr- ½ Mo,
1 ¼ Cr- ½ Mo, 2 ¼ Cr-1 Mo, 2 ¼ Cr-1 Mo- ¼ V, 3 Cr-1 Mo and
3 Cr-1 Mo- ¼ V steels, provided that the requirements of paragraph
8.1.15 are met.
e) Forming and rolling of plates of 1 Cr- ½ Mo, 1 ¼ Cr- ½ Mo, 2 ¼ Cr-1
Mo, 2 ¼ Cr-1 Mo- ¼ V, 3 Cr-1 Mo and 3 Cr-1 Mo- ¼ V steels shall be
performed with a minimum through-thickness temperature of 177°C
(350°F). Forming at ambient temperature is prohibited.

9.12.2 Cold Forming
a) Heat treatment requirements for Carbon Steels (P-1), Low Alloy Steels
(P-3, 4, 5, 9A and 9B), High Alloy Steels and Non-ferrous Materials
shall be as follows:
Material Fiber Elongation Strain εf (%) Heat Treatment Requirement
None
Less than or equal to 5 (Exception: PWHT per the applicable Code
shall be performed for cold spun heads)
Carbon Steels P-1 Greater than 5 & equal to or less than 10 PWHT per the applicable Code
Normalizing, Normalizing and tempering or
Greater than 10 quenching and tempering, as required to
maintain original material properties.
Low Alloy Steels P-3, None
Less than or equal to 3
P-4, P-5, P-9A, & P9B (Exception: PWHT per the applicable Code

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Document Responsibility: Heat Transfer Equipment Standards Committee 32-SAMSS-007
Issue Date: 26 June 2017
Next Planned Update: 26 June 2020 Manufacture of Shell and Tube Heat Exchangers

Material Fiber Elongation Strain εf (%) Heat Treatment Requirement
shall be performed for cold spun heads)
Greater than 3 & equal to or less than 10 PWHT per the applicable Code
Normalizing, normalizing and tempering or
Greater than 10 quenching and tempering, as required to
maintain original material properties.
Table 6.2 of ASME SEC VIII D2
(Exception: Austenitic stainless steel
High Alloy Materials Table 6.2 of ASME SEC VIII D2 formed heads shall be solution annealed
irrespective of the calculated fiber
elongation strain εf)
Non-ferrous Materials Table 6.3 of ASME SEC VIII D2 Table 6.3 of ASME SEC VIII D2

b) Calculation of forming fiber elongation strain εf (%) shall be according
to the following:

Type of Part Being Formed Fiber Elongation Strain εf (%)

For double curvature heads that are formed from one-
piece or welded multi-piece blanks by any process that
εf = 100 ln [Db/(Df -2t)]
includes dishing or cold spinning (e.g., dished heads or
cold spun heads)
For heads that are assembled from formed segments
(e.g., spherical dished shell plates or dished segments εf = 100 t / Rfd
of ellipsoidal or torispherical heads)
Cylinders and cones formed from plate εf = (50 t / Rfc) [1-(Rfc / Ro)]

Where:
ln is the natural logarithm
Db is the diameter of unformed blank plate or diameter of intermediate product
Df is the outside diameter of the finished product
Rfd is the smallest mean radius of curvature of formed segment (mean radius of spherical
segment, mean knuckle radius of knuckle segment of multi sectional semi-ellipsoidal or
torispherical heads)
Rfc is the mean radius of curvature of finished product (mean radius of cylinder, mean
radius of the smaller diameter of cone)
Ro is the mean radius of initial product (flat plate) or the intermediate product (in case of
unformed initial product equals to infinity)
t is the nominal thickness of the plate before forming or intermediate product

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Document Responsibility: Heat Transfer Equipment Standards Committee 32-SAMSS-007
Issue Date: 26 June 2017
Next Planned Update: 26 June 2020 Manufacture of Shell and Tube Heat Exchangers

Commentary Notes:

i) Cold spun heads with nominal thickness exceeding 50 mm shall be heat treated by
normalizing, normalizing and tempering or quenching and tempering, as required to
maintain original material properties), irrespective of the calculated fiber elongation strain.

ii) Need for heat treatment of all double curvature circular products (e.g., spherical crowns,
semi-ellipsoidal and torispherical heads) formed from one-piece or welded multi-piece
blank, shall be based on fiber elongation strain calculated using equation of the above
table.

iii) Separate calculation of extreme fiber elongation shall be made for each formed segment
forming multi-sectional heads (torispherical or ellipsoidal) or spheres (excluding spherical
crown). Need for heat treatment shall be determined for each segment individually using
equation of the above table based on the greatest measured thickness and smallest radius
of curvature after forming.

iv) In case of different forming steps without intermediate heat treatment are employed,
extreme fiber elongation is the total amount of elongation of the individual forming steps. In
case of intermediate heat treatment, the deformation is that elongation achieved after the
last previous heat treatment. This is applicable for all types of formed part.

v) Filler metal used in items subjected to hot forming temperatures, or normalized, shall satisfy
the weld joint design requirements after such heat treatment. This is considering that such
welds will generally suffer significant strength reduction.

vi) Austenitic stainless steel formed heads shall be solution annealed irrespective of the
calculated fiber elongation strain εf

9.13 Bolt tensioning device shall be used for bolting up flanged connections with
stud bolts of diameter 1-½ inch and above. Bolt up of flanges, irrespective
of bolt diameter shall be according to ASME PCC-1 requirements.

9.14 Correction of fit-up offsets of the closing longitudinal butt joint in a rolled
shell ring shall be achieved by only employing rolling machine operation
until the deviations are within the specified Code tolerances.

9.15 Alignment of pre-formed sections of multi-piece exchangers head at butt
joints, with fit-up deviations exceeding the Code tolerances, shall be
achieved by only reforming (employing pressing machine) the head
segments until the deviations are within the specified limits.

9.16 Alignment of completely fabricated sections at girth joints (shell ring-to-
shell ring and head-to-shell ring), with fit-up deviations exceeding the Code
tolerances, shall be achieved by only reforming the shell (using rolling
machine) or head (employing pressing machine), whichever is out-of-true,
until the deviations are within the specified limits.

9.17 All hot forming procedures require simulated production test coupons per
paragraph 9.5.25 of this specification.

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Document Responsibility: Heat Transfer Equipment Standards Committee 32-SAMSS-007
Issue Date: 26 June 2017
Next Planned Update: 26 June 2020 Manufacture of Shell and Tube Heat Exchangers

9.18 Welds Encroachment

9.18.1 It is the responsibility of the Exchanger Manufacturer to ensure that the outer
edge of welds attaching manways, nozzles (with and without reinforced
pads) and other structural attachments (with and without reinforced pads),
except those in paragraph 9.18.4, to pressure-retaining components shall not
be closer than 1 inch from the adjacent edge of any other weld. It is the
responsibility of the manufacturer to ensure that requirements of paragraph
7.17.3 of this specification are met in the vicinity of the welds.
Commentary Note:

Weld spacing requirements for nozzle/ manway welds in exchangers under the
scope of API RP 934-A constructed of 2 ¼ Cr-1 Mo- ¼ V and 3 Cr-1 Mo- ¼ V
shall be according to paragraph 9.18.4 of this specification.

9.18.2 NDE per paragraph 10.1.45 shall be performed, where the optimized
fabrication layout and/ or process design requirements do not absolutely allow
meeting the spacing requirement in paragraph 9.18.1 of this specification.

9.18.3 It is prohibited to cover butt welds in wall of exchangers that will undergo
PWHT by structural attachments (with or without reinforcing pads).

9.18.4 Nozzle/ manway welds in exchangers under the scope of API RP 934-A
constructed of 2¼ Cr-1 Mo- ¼ V and 3 Cr-1 Mo- ¼ V steels shall be located
without intersecting any circumferential or longitudinal welds. Adjacent
edges of circumferential or longitudinal welds and welds attaching nozzles /
manways shall not be closer than the greater of 50 mm (2 in.) and one
thickness of head or shell.

10 Inspection and Testing

10.1 Quality Control

10.1.19 The responsibility for examination rests with the Exchangers Manufacturer
in accordance with the applicable Code and the requirements of this
specification.

10.1.20 Exchangers manufactured in accordance with this specification are subject to
verification by the Saudi Aramco Inspector in accordance with Saudi
Aramco Inspection Requirements Form 175-323100.

10.1.21 All required Nondestructive Examination (NDE) shall be performed in
accordance with inspection procedures that are in complete compliance with
ASME SEC V and this specification. This written procedure shall address
each inspection method and technique used including acceptance criteria.

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Document Responsibility: Heat Transfer Equipment Standards Committee 32-SAMSS-007
Issue Date: 26 June 2017
Next Planned Update: 26 June 2020 Manufacture of Shell and Tube Heat Exchangers

The procedure(s) shall be submitted to Saudi Aramco Inspection Department
for approval.

10.1.22 All Nondestructive Examination, including Magnetic Particle and Liquid
Penetrant examinations, shall be performed by personnel certified in
accordance with ASNT CP-189, or equivalent National Certification
Programs that has been approved by the Saudi Aramco Inspection
Department. Personnel responsible for interpretation of Nondestructive
Examination results shall be certified to a minimum of Level II.

10.1.23 All required NDE for final acceptance of the exchanger shall be performed
after the completion of all welding and repairs and prior to pressure testing.
In exchangers requiring PWHT, all NDE for final acceptance shall be
performed after the final PWHT.

10.1.24 Use of fitness-for-service assessment methodology to qualify exchanger
welding joints that do not satisfy the applicable construction code acceptance
criteria is prohibited.

10.1.25 Magnetic particle examination or liquid penetrant examination per the
applicable Code shall be performed on the surfaces of hot formed and reheat
treated parts.

10.1.26 All pressure and non-pressure welds in exchangers that are not required to
undergo PWHT shall be visually inspected where accessible. All segments
of longitudinal, circumferential or built-up head pressure weld seams
covered or rendered inaccessible by internals, lifting lugs or other
attachments shall be fully radiographed over the entire affected length plus
minimum 50 mm (2 in.) either side prior to installation of the attachment.

10.1.27 Additional examination of any weld joint at any stage of the fabrication may
be requested by the Saudi Aramco Inspector, including re-examination of
previously examined joints. The Saudi Aramco Inspector also has the right
to request or conduct independent NDE of any joint. If such examination
should disclose nonconformance to the requirements of the applicable Code
or this specification, all repair and NDE costs shall be done at the Exchanger
Manufacturer's expense.

10.1.28 All necessary safety precautions shall be taken for each examination method.

10.1.29 Surface irregularities, including weld reinforcement, inhibiting accurate
interpretation of the specified method of nondestructive examination shall be
ground smooth.

10.1.30 Examination of all welds shall include a band of base metal at least one inch

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