19 20 MARCH 2018 DESIGN RULES ACCORDING TO EN13480 · PDF filepiping stress engineers ......
Transcript of 19 20 MARCH 2018 DESIGN RULES ACCORDING TO EN13480 · PDF filepiping stress engineers ......
W H O S H O U L D
A T T E N D Suited for engineers or
those persons involved in
the design of piping ac-
cording to the EN13480
Goals
Competency in using the
EN13480 code
Understanding and provid-
ing design solutions for pip-
ing and piping compo-
nents.
Understanding the
differences between
EN and other piping codes
G E N E R A L S C O P E
C O U R S E C O N T E N T
The EN13480 code specifies require-ments for industrial piping systems and supports, including safety systems, made of metallic materials with a view to en-sure safe operation. The EN13480 code consists of 4 parts:
General
Materials
Construction and calculation
Fabrication and installation
This course will mainly focus on parts 1, 2 and 3 and is specially developed for piping stress engineers Chempute Software will provide training venue, computers, training dongles, printed training notes, teas, lunches, course certificate. 2 CPD points are awarded according to the ECSA Continuing Professional Development program
1 9 — 2 0 M A R C H 2 0 1 8
D E S I G N R U L E S A C C O R D I N G T O E N 1 3 4 8 0
Course contents Training Agenda
Code scope and applicability:
Role of the Pressure Equipment Directive (PED),
Role of the European Code of Standardization (CEN),
Role of the Notified Bodies (NOBO’s).
Overview of the EN13480 code and how it is structured.
Definition of EN-Materials: o Introduction to types of materials
Definition of the ”Werkstoff Number”
Overview of relevant EN material standards
Definition of the material stress allowable (safety factors on yield, tensile, etc).
Comparing a typical EN13480 design with an ASME design (reflection on the main differences).
Construction and Calculation
Design criteria: loads, load cases, tolerances and joint coefficients.
How to design for primary and thermal stresses.
How to design for creep and brittle fracture.
Pressure design of components: pipes, bends, reducers, junctions, expansion joints, bolted flange connections.
Design of closures for internal pressure: dished ends, hemispherical ends, torispherical ends, ellipsoidal ends, flat ends, openings in flat ends.
Design of openings and branch connections.
Design of piping components under external pressure.
Design for cyclic loading: rules that specify when to perform fatigue analysis, simplified fatigue analysis, full fatigue analysis.
Flexibility analysis of piping systems. Supports: classification of supports, material requirements, design criteria, allowed stress levels, special supports
Complete the registration form and fax it to 031 764 5934 or e-mail
through to [email protected].
Acknowledgement will be faxed or e-mailed back to you.
Final confirmation of your booking and all details of the course will be faxed or e-mailed to you only on receipt of full payment for the course.
Form to be completed by each delegate
By signing and returning this form, you will be registered on the
course and will be liable for payment. Please ensure that you have
proper authorisation to do this.
Cancellations are accepted in writing and without penalty up to 14
days prior to the start of the training.
Delegates cancelling in writing between 7 and 14 days prior to the start of the training will be liable for 25% of the training cost.
Delegates cancelling in writing less than 7 days prior to the start of the training will be liable for 50% of the training cost.
Full Payment needs to be received by Chempute Software prior to the training.
In case of insufficient delegates for the training, Chempute Software may cancel this course. In this case, registered delegates will be noti-fied, and any payments will be refunded.
H O W T O E N R O L
C O N D I T I O N S O F R E G I S T R A T I O N
P R E S E N T E R
Dr. Frank Bos
(To Be Confirmed)
Frank has been the trainer for a large number of FE/Pipe and Nozzle PRO training seminars since 2012 (including the Nether-lands, Belgium and South Africa) Frank has also co-developed and giv-en the DRG training courses in the pressure vessel design code ASME VIII-2 Part 5 A selection of the FEA projects (according to ASME VIII-2 or EN13345) in which Frank has been involved, using (FE/Pipe, ANSYS, FE-MAP and CREO).
Thermal Fatigue analysis of molten salt heat exchangers (MAC TPI, TSK Grupo)
Root cause analysis of molten salt heat exchangers (TSK Grupo)
Buckling and stability analysis for a heat exchangers (MAC TPI)
Thermal transient calculations of tubesheet / shell configurations (BP)
Buckling analysis for vacuum towers (Jacobs, BP)
Thermal Fatigue analysis of reformer units (Technip)
Thermal static and fatigue analysis of steam generation systems (TSK Grupo)
Flexibility analysis of nozzle connections in piping systems (BP, Jacobs, FPI, Fluor)
Course Highlights
Understand the structure and applicability of the code.
Explanation of the rules for most standard components.
Tutorials to reinforce how to apply the rules.
Identify the limits of the rules and comparison with other codes.
Material selection and failure mechanisms.
C O U R S E N A M E D A T E S
Design Rules According to EN13480 19— 20 MARCH 2018
T I M E S D U R A T I O N
8:00 a.m.—4:30 p.m. 2 Days
L O C A T I O N C P D P O I N T S
Chempute Software / Unit G14 2
Pinewood Office Park, Pinewood Square,
33 Riley road,
Woodmead, Sandton
Delegates Information:
Title: Name: Surname:
Full Company Name: Job Title: Vat Registration Number:
Postal Address (to which invoice must be sent):
Code:
Tel: Cell:
E-mail:
Special Dietary Requirements:
Contact/Accounts Information:
Title: Name: Surname:
Tel: Fax:
E-mail:
Course:
1st Delegate R 9 900 Excl. VAT
2nd / Additional Delegates from same Company Less 10 %
I have read and agreed to all the conditions of enrolment and payment as stipulated in this registration form:
Signature: Date:
D I R E C T I O N S T O T H E V E N U E :
Chempute Software, Unit G14, Pinewood Square, Pinewood Office Park,
33 Riley road, Woodmead, Sandton
Telephone: 031 764 6840 / 011 803 6559 for directions.
D I R E C T I O N S F R O M P R E T O R I A :
Get on N1 from Francis Baard St/N4 and Exit 145 Take N1
Continue on N1. Drive from Pretoria Main Rd to Sandton.
Take exit 100-Sandton from N1 Western Bypass
Use the right lane to merge onto Rivonia Rd/M9
Use the right 2 lanes to turn right onto Witkoppen Rd
Turn right onto Bowling Ave
Turn left at the 1st cross street onto Riley Rd
D I R E C T I O N S F R O M J O H A N N E S B U R G :
Take M31 and Houghton Dr to De Villiers Graaff Motorway/M1
Follow De Villiers Graaff Motorway/M1 to Woodmead Dr/R55 in Sandton. Take exit 29 from De Villiers Graaff Motorway/M1
Use the left 2 lanes to turn left onto Woodlands Dr
Turn right onto Lincoln St
Turn left onto Plymouth St
Plymouth St turns right and becomes Hillman St
Continue onto Riley Rd