SIST EN 13480-3:2018/A1:2021
(Amendment)Metallic industrial piping - Part 3: Design and calculation
Metallic industrial piping - Part 3: Design and calculation
This Part of this European Standard specifies the design and calculation of industrial metallic piping systems, including supports, covered by EN 13480.
Metallische industrielle Rohrleitungen - Teil 3: Konstruktion und Berechnung
Tuyauteries industrielles métalliques - Partie 3 : Conception et calcul
Kovinski industrijski cevovodi - 3. del: Konstruiranje in izračun - Dopolnilo A1
General Information
Relations
Frequently Asked Questions
SIST EN 13480-3:2018/A1:2021 is a amendment published by the Slovenian Institute for Standardization (SIST). Its full title is "Metallic industrial piping - Part 3: Design and calculation". This standard covers: This Part of this European Standard specifies the design and calculation of industrial metallic piping systems, including supports, covered by EN 13480.
This Part of this European Standard specifies the design and calculation of industrial metallic piping systems, including supports, covered by EN 13480.
SIST EN 13480-3:2018/A1:2021 is classified under the following ICS (International Classification for Standards) categories: 23.040.10 - Iron and steel pipes; 77.140.75 - Steel pipes and tubes for specific use. The ICS classification helps identify the subject area and facilitates finding related standards.
SIST EN 13480-3:2018/A1:2021 has the following relationships with other standards: It is inter standard links to SIST EN 13480-3:2024, SIST EN 13480-3:2018. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.
SIST EN 13480-3:2018/A1:2021 is associated with the following European legislation: EU Directives/Regulations: 2014/68/EU, EUR-PUB; Standardization Mandates: M/071. When a standard is cited in the Official Journal of the European Union, products manufactured in conformity with it benefit from a presumption of conformity with the essential requirements of the corresponding EU directive or regulation.
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Standards Content (Sample)
SLOVENSKI STANDARD
01-maj-2021
Kovinski industrijski cevovodi - 3. del: Konstruiranje in izračun - Dopolnilo A1
Metallic industrial piping - Part 3: Design and calculation
Metallische industrielle Rohrleitungen - Teil 3: Konstruktion und Berechnung
Tuyauteries industrielles métalliques - Partie 3 : Conception et calcul
Ta slovenski standard je istoveten z: EN 13480-3:2017/A1:2021
ICS:
23.040.10 Železne in jeklene cevi Iron and steel pipes
77.140.75 Jeklene cevi in cevni profili Steel pipes and tubes for
za posebne namene specific use
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
EN 13480-3:2017/A1
EUROPEAN STANDARD
NORME EUROPÉENNE
March 2021
EUROPÄISCHE NORM
ICS 23.040.01
English Version
Metallic industrial piping - Part 3: Design and calculation
Tuyauteries industrielles métalliques - Partie 3 : Metallische industrielle Rohrleitungen - Teil 3:
Conception et calcul Konstruktion und Berechnung
This amendment A1 modifies the European Standard EN 13480-3:2017; it was approved by CEN on 25 January 2021.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for inclusion of
this amendment into the relevant national standard without any alteration. Up-to-date lists and bibliographical references
concerning such national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN
member.
This amendment exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the
same status as the official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and
United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2021 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 13480-3:2017/A1:2021 E
worldwide for CEN national Members.
Contents Page
European foreword . 4
1 Modifications to European foreword . 5
2 Modifications to Clause 2, Normative references . 5
3 Modifications to 3.2, Symbols and units . 5
4 Modifications to 4.2.3.4, Calculation pressure . 5
5 Modifications to 4.3, Thickness . 5
6 Modifications to 4.6, Dimensioning of piping components subject to pressure . 5
7 Modifications to 5.2.1, Steels other than austenitic steels . 6
8 Modifications to 5.2.4, Steels castings . 6
9 Modifications to 5.2.5.1, General . 6
10 Modifications to 5.3.2.1, Design conditions . 6
11 Modifications to 6.2, Pipe bends and elbows . 7
12 Modifications to 6.4.3, Specific symbols and abbreviations . 7
13 Modifications to 6.4.10, Special forged reducers . 8
14 Modifications to 6.5.2, Expansion joints . 8
15 Modifications to 6.6, Bolted flange connections . 8
16 Modifications to 6.6.4, Non-standard flange . 8
17 Modifications to 7.1, Dished ends. 8
18 Modifications to 7.1.3, Torispherical ends . 9
19 Modifications to 7.2, Circular flat ends . 9
20 Modifications to 7.2.3.3, Unflanged flat ends . 9
21 Modifications to 7.2.4.1, General . 9
22 Modifications to 7.2.5.2, Flat ends with openings . 10
23 Modifications to 8.4.1, General . 10
24 Modifications to 8.4.4, Reinforced single openings with 0,8 < d/D ≤ 1,0 . 10
25 Modifications to 8.5.2, Reinforced openings with d/D ≤ 0,8 . 10
26 Modifications to 8.6.1, Cylindrical Y-pieces . 11
27 Modifications to 10.3.2, Simplified fatigue analysis . 11
28 Modifications to 10.3.2.3, Determination of allowable number of load cycles . 11
29 Modifications to 10.4.2, Design guidance . 11
30 Modifications to 11.3, Symbols . 11
31 Modifications to 12.2.3, Displacement strains . 11
32 Modifications to 12.2.5, Stress range . 11
33 Modifications to 12.2.7.1, Thermal expansion data . 12
34 Modifications to 12.2.10.2, Formal analysis required . 12
35 Modifications to C.1.3, Design of expansion joints . 12
36 Modifications to D.4.1, Introduction . 12
37 Modifications to D.4.4, Flange construction . 12
38 Modifications to D.4.6, Gaskets . 12
39 Modifications to D.5.2, Bolt loads and areas . 12
40 Modifications to D.5.4.2, Stress limits . 13
41 Modifications to E.2.1, Angles and areas . 13
42 Modifications to F.2, Measures to be taken when the calculated fatigue life has been
reached . 13
43 Modifications to L.2, Symbols. 14
44 Modifications to L.4, Allowable compressive stress. 14
45 Modifications to Annex P, Recommended gaskets for industrial piping . 14
46 Modifications to Q.3, Explanatory notes for Table Q.1 . 14
47 Modifications to Bibliography . 14
Bibliography . 15
European foreword
This document (EN 13480-3:2017/A1:2021) has been prepared by Technical Committee CEN/TC 267
“Industrial piping and pipelines”, the secretariat of which is held by AFNOR.
This European Standard shall be given the status of a national standard, either by publication of an
identical text or by endorsement, at the latest by September 2021, and conflicting national standards shall
be withdrawn at the latest by September 2021.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CEN shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a mandate given to CEN by the European Commission and the
European Free Trade Association, and supports essential requirements of EU Directive(s).
For relationship with EU Directive(s), see informative Annex ZA, which is an integral part of this
document.
This document includes the text of the amendment itself. The amended/corrected pages of
EN 13480-3:2017 will be published as Issue 2 of the European Standard.
1 Modifications to European foreword
In the European foreword, 8th paragraph shall read as follows:
“This document is maintained by a working group (Maintenance Help Desk - MHD) whose scope of work
is limited to corrections and interpretations related to EN 13480.”.
2 Modifications to Clause 2, Normative references
In Clause 2, the following normative reference shall be added:
EN 764-5:2014, Pressure equipment - Part 5: Inspection documentation of metallic materials and
compliance with the material specification
In Clause 2, the following normative references shall be deleted:
EN 1591-1:2013, Flanges and their joints - Design rules for gasketed circular flange connections - Part 1:
Calculation
EN 1591-2:2008, Flanges and their joints — Design rules for gasketed circular flange connections — Part
2: Gasket parameters
3 Modifications to 3.2, Symbols and units
In Table 3.2-1, the following lines shall read as follows:
c corrosion or erosion allowance (see Figure 4.3–1 and Figure 4.3–2) mm
c absolute value of the negative tolerance taken from the material standard mm
(see Figure 4.3–1 and Figure 4.3–2)
c thinning allowance for possible thinning during manufacturing process mm
(see Figure 4.3–1 and Figure 4.3–2)
e analysis thickness of a component used for the check of the strength mm
a
(see Figure 4.3–1 and Figure 4.3–2)
e nominal thickness on drawings (see Figure 4.3–1 and Figure 4.3–2) mm
n
e ordered thickness (see Figure 4.3–1 and Figure 4.3–2) mm
ord
4 Modifications to 4.2.3.4, Calculation pressure
NOTE 2 in subclause 4.2.3.4 shall read as follows:
“NOTE 2 If there is a condition where pc = PS and tc =TS, only this condition needs to be calculated.”.
5 Modifications to 4.3, Thickness
In subclause 4.3, the order of the 3rd and 4th paragraphs shall be inverted.
6 Modifications to 4.6, Dimensioning of piping components subject to pressure
In subclause 4.6, 3rd paragraph shall read as follows:
“If the component under consideration is subjected to significant section moments resulting from
connected piping, the rules of 12.4 shall apply.”.
7 Modifications to 5.2.1, Steels other than austenitic steels
Subclause 5.2.1.2 shall read as follows:
“The designer shall ensure that the nominal design stress f under the proof test conditions, given in
test
EN 13480-5, does not exceed 95 % R or 95 % R at specified test temperature.”.
eH p0,2
8 Modifications to 5.2.4, Steels castings
Heading of subclause 5.2.4.2 shall read as follows:
“5.2.4.2 Test conditions”
9 Modifications to 5.2.5.1, General
The 1st sentence of 5.2.5.1 shall read as follows:
“Steels with no specific control are those possessing a test report 2.2 or a declaration of compliance with
the order type 2.1, in accordance with EN 10204:2004. They shall only be used as permitted in
EN 764-5:2014.”
10 Modifications to 5.3.2.1, Design conditions
Table 5.3.2-1 shall read as follows:
Table 5.3.2–1 — Safety factor as a function of mean creep rupture strength related to time
a) c)
Design lifetime Without surveillance of creep With surveillance of creep exhaustion
c)
exhaustion
Mechanical Mechanical
T [h] Sf Sf
cr cr
property property
10 000 ≤ T ≤ 100 000 S 1,5 S 1,25
R T t R T t
d) d)
100 000 < T < 200 000 S 1,5 S 1,25
R T t R T t
S 1,25
R 200 000 h t
d) d) b)
T = 200 000 S 1,5 S 1,35
R T t R 150 000 h t
b)
S 1,5
R 100 000 h t
a)
If the design lifetime is not specified, the mean creep rupture strength at 200 000 h shaII be used with the associated
Sf .
cr
b)
Only in cases where the 200 000 h values are not specified in the material standards, the mean creep rupture strength
at 150 000 h or 100 000 h shall be used for a design lifetime of 200 000 h with the associated Sfcr.
c)
Surveillance by means of non-destructive testing and/or additional calculations of creep damage, D .
c
S
R 200000ht
d)
Allowed only if ≥ 0,781 to ensure that 60 % of theoretical creep damage are not exceeded at 200 000 h.
S
R 100000ht
11 Modifications to 6.2, Pipe bends and elbows
In subclause 6.2, 1st paragraph shall read as follows:
“There are two methods for calculating the wall thickness of elbows as well as the wall thickness of pipe
bends (see 6.2.3.1 and 6.2.3.2). The chosen method shall be used in its entirety.”.
Table 6.2.2-1 shall read as follows:
Table 6.2.2–1 — Additional symbols for the purposes of 6.2
Symbol Description Unit
e minimum required thickness without allowances and tolerances for a bend on mm
int
the intrados
e minimum required thickness without allowances and tolerances for a bend on mm
ext
the extrados
R Bending radius of bend or elbow (center line) mm
12 Modifications to 6.4.3, Specific symbols and abbreviations
Table 6.4.3-1 shall read as follows:
Table 6.4.3–1 — Additional symbols for the purposes of 6.4
Symbol Description Unit
s
D the mean diameter of the cylinder at the junction with the cone mm
c
D the outside diameter of the cone mm
e
D the inside diameter of the cone mm
i
D a diameter given by Formula (6).4.4–7) mm
K
D the mean diameter of the cone mm
m
e required thickness of cone as determined in 6.4.4 mm
con
e required thickness of cylinder as determined in 6.1 mm
cyl
e a required or analysis thickness at a junction at the large end of a cone mm
j
e required thickness of cylinder at junction mm
e analysis reinforcing thickness in cylinder mm
1a
e required thickness of cone and knuckle at junction mm
e analysis reinforcing thickness in cone mm
2a
f the nominal design stress. In the design of junctions to 6.4.6 to 6.4.9 it is the MPa (N/mm )
lowest of values for the individual component parts
values for the individual component parts
l length along cylinder mm
l length along cone at large or small end mm
r inside radius of knuckle mm
i
α the semi angl
...
SIST EN 13480-3:2018/A1:2021 표준은 금속 산업 배관 시스템의 설계 및 계산을 규정하고 있으며, EN 13480의 적용 범위 내에서 지지대를 포함한 응용 분야를 다루고 있습니다. 이 표준은 산업 배관 시스템의 안전성 및 효율성을 보장하기 위한 체계적인 접근 방식을 제공합니다. 이 표준의 강점 중 하나는 다양한 형태의 금속 배관에 대한 포괄적인 설계 지침을 제공한다는 점입니다. 사용자는 기존의 산업 배관 시스템을 평가하고, 새로운 시스템을 설계하는 데 있어 필요한 계산 방법과 설계 기준을 매우 명확하게 접할 수 있습니다. 또한, SIST EN 13480-3:2018/A1:2021은 오랜 기간에 걸쳐 수집된 데이터를 기반으로 하여 경험적인 증거를 통해 검증된 방법론을 제시합니다. 표준의 관련성 또한 강조할 수 있습니다. 현대 산업 환경에서는 안전과 효율이 점점 더 중요해지고 있으며, SIST EN 13480-3:2018/A1:2021은 이러한 요구에 부응하는 솔루션을 제공합니다. 이 표준을 준수하는 것은 산업계에서의 경쟁력을 높이는 데 필수적이며, 에너지 효율성을 향상시키고, 비용을 절감하는 데 기여할 수 있습니다. 결국, 이 표준은 안전하고 신뢰할 수 있는 금속 산업 배관 설계를 위해 없어서는 안 될 중요한 기준이 됩니다.
La norme SIST EN 13480-3:2018/A1:2021 est un document essentiel qui s'inscrit dans le cadre des normes européennes relatives aux tuyauteries métalliques industrielles. En se concentrant spécifiquement sur la conception et le calcul des systèmes de tuyauterie métalliques industriels, cette norme offre une base solide pour garantir la sécurité et l'efficacité des installations. L'un des principaux points forts de cette norme est sa portée étendue, qui couvre non seulement les aspects de conception des tuyauteries, mais également les supports nécessaires à leur installation. Cela permet une approche intégrée qui prend en compte l'ensemble du système, assurant ainsi une cohérence dans les méthodes de conception et de calcul. Cette intégration est cruciale pour minimiser les risques d'échec structurel et pour optimiser la performance des systèmes de tuyauterie. En termes de pertinence, la norme SIST EN 13480-3:2018/A1:2021 répond aux exigences actuelles de l'industrie, en intégrant les dernières avancées technologiques et les meilleures pratiques en matière de conception de tuyauterie. Avec l'accent mis sur la sécurité et la durabilité, cette norme est particulièrement adaptée aux exigences croissantes des applications industrielles modernes. De plus, la normalisation des méthodes de calcul permet une harmonisation des pratiques au sein de l'industrie, facilitant ainsi la collaboration entre les différents acteurs et assurant une meilleure compréhension des exigences techniques. Cela contribue également à la conformité réglementaire et aux standards internationaux, renforçant la confiance dans les systèmes de tuyauterie conçus selon cette norme. En conclusion, la norme SIST EN 13480-3:2018/A1:2021 se révèle être un atout majeur pour la conception et le calcul des systèmes de tuyauterie métalliques industriels, offrant un cadre normatif robuste et adapté aux défis contemporains de l'industrie.
SIST EN 13480-3:2018/A1:2021は、金属製産業配管システムの設計および計算に関する欧州標準の重要な一部です。この標準は、実用的な適用を意図しており、産業界における金属配管の安全性と効率を保証するための包括的なガイドラインを提供します。 この標準の範囲は、産業用金属配管システムの設計および計算に関する要件を明確に定義しており、特に支持構造に関しても言及しています。これにより、設計者やエンジニアは、配管システムが適切に機能し、規定された安全基準を満たすことを確実にするための基礎を得ることができます。 SIST EN 13480-3の強みは、その詳細な設計基準と計算方法にあります。これらは、複雑な工業環境での配管設計において必要な信頼性と予測可能性を提供します。また、ユーザーが異なる条件や材料特性に応じて適切な設計を行うための柔軟性も持たせています。 現在の産業環境において、この標準はその relevancy(関連性)を十分に発揮しており、技術的な進展や業界の要求に適応する形で更新されています。これにより、SIST EN 13480-3は、最新の技術に基づいた配管設計を行いたい企業やエンジニアにとって、不可欠なリソースとなっています。 全体として、SIST EN 13480-3:2018/A1:2021は、金属製産業配管に関する設計と計算のための信頼性の高いフレームワークを提供しており、その利用は産業界の安全性と効率を高める上での重要な要素です。
Die SIST EN 13480-3:2018/A1:2021 ist ein wesentlicher Standard für die Konstruktion und Berechnung von metallischen Industriepipelines. Der Umfang dieses Dokuments ist klar definiert und konzentriert sich auf die Konstruktion sowie die Berechnungen, die für industrielle Rohrleitungssysteme erforderlich sind. Dies schließt auch die Unterstützungssysteme ein, die für die sichere und effektive Funktionsweise dieser Pipelines entscheidend sind. Ein großer Vorteil des Standards ist seine umfassende Abdeckung der technischen Anforderungen und Methoden, die für das Design von metallischen Rohrleitungen notwendig sind. Die klare Struktur und die detaillierten Vorgaben fördern eine einheitliche Anwendung und stellen sicher, dass die Sicherheits- und Leistungsanforderungen erfüllt werden. Die Führung durch bewährte Verfahren und Normen innerhalb der Industrie trägt zur Minimierung von Fehlern während des Entwurfs- und Berechnungsprozesses bei. Die Relevanz der SIST EN 13480-3:2018/A1:2021 ergibt sich nicht nur aus den spezifischen Anwendungsbereichen in der Industrie, sondern auch aus ihrer Kompatibilität mit anderen europäischen Normen. Diese Standardisierung ist besonders wichtig in einem globalisierten Markt, wo Konsistenz und Qualitätssicherung unerlässlich sind. Unternehmen, die sich an diesen Standard halten, können die Effizienz ihrer Systeme verbessern und gleichzeitig das Risiko von Betriebsstörungen verringern. Insgesamt hebt sich die SIST EN 13480-3:2018/A1:2021 durch ihre Klarheit, Anwendungstiefe und den Fokus auf Sicherheit in der Konstruktion und Berechnung von metallischen Industriepipelines hervor. Durch diese Eigenschaften ist der Standard ein unverzichtbares Werkzeug für Ingenieure und Planer, die in diesem Bereich tätig sind.
The SIST EN 13480-3:2018/A1:2021 standard provides a comprehensive framework for the design and calculation of metallic industrial piping systems, a critical aspect for ensuring the safety and efficiency of industrial operations. Its scope encompasses not only the piping itself but also the supports necessary for maintaining structural integrity, which is essential in a variety of industrial environments. One of the significant strengths of this standard lies in its thorough approach to the various aspects of design and calculation, covering parameters such as material selection, dimensional requirements, and stress analysis. By adhering to this standard, engineers can ensure that piping systems are robust, reliable, and compliant with the latest industry best practices. Additionally, the updated version with the amendment (A1:2021) reflects the latest technological advancements and emerging needs in the industrial sector, making it highly relevant for current applications. Moreover, the standard is consistent with broader European regulations, facilitating harmonization across different countries and sectors. This consistency promotes a unified approach to the design and calculation of metallic industrial piping systems, ultimately leading to improved safety standards and operational efficiency in the industry. Overall, the SIST EN 13480-3:2018/A1:2021 standard is an indispensable tool for professionals involved in the design and construction of industrial metallic piping. Its detailed guidelines and emphasis on safety and reliability ensure that structures are not only compliant with legal requirements but also built to withstand the demanding conditions encountered in industrial settings.
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