W H O S H O U L D

A T T E N D

Engineers in the piping design and analysis field; practicing piping engineers requiring background on Code compliance and trends in piping design, analysis and fabrication, New and prospective CAESAR users.

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

This course addresses Advanced

Statics and Dynamic Analysis topics in

Pipe Stress Analysis.

This presentation is based on hands-

on solution of example problems in

order to illustrate Pipe Stress Analysis

using CAESAR software.

Previous experience in Pipe Stress

Analysis, plus experience in using

CAESAR, or attendance of the Basic

Statics Analysis Course is required.

A discussion/question/answer format

is also employed in order to maxim-

ize retention of course material and

theoretical concepts. Persons

attending the training should expect

to leave the course with an advanced

working knowledge of CAESAR II, and

pipe flexibility analysis. Some of the

specific topics covered are outlined

below.

Chempute Software will provide training venue, computers, training dongles, printed training notes, teas, lunches, course certificate.

5 CPD points are awarded according to the ECSA Continuing Professional Development program

1 8 — 2 2 J U N E 2 0 1 8

A D V A N C E P I P E S T R E S S S T A T I C A N A L I S Y S U S I N G C A E S A R

Modal Analysis Examples

Modelling methods to improve the accuracy of the modal analysis Modal Analysis Settings

Dynamic Output processor and results review

Introduction to the Dynamic Analysis Interface

and workflow

Dynamic Analysis Output and Animations

Fluid Hammer Analysis Example

Determine Fluid Hammer Input Time History Definition Results Review

Seismic Analysis Example

Determine Seismic Data Seismic Data Entry in CAESAR II / Results Review Analyse Multiple Response Spectra and Independent Support motion

Harmonic Analysis Example

Identification of an issue in the field Accurate Modelling of a System for Harmonic Analysis Harmonic Load determination and input Settings for Harmonic Analysis Friction in Dynamic Analysis Fatigue Analysis configuration

Relief Valve Operation

Comparison of Static vs. Response Spectrum vs. Time History Analysis for Relief valve System Modelling for accurate Dynamic Analysis Data Input and settings for accurate Dynamic Analysis

Slug Flow

Derivation of Slug Load Comparison of Static vs. Response Spectrum vs. Time History Analysis for Relief valve System Modelling for accurate Dynamic Analysis Data Input and settings for accurate Dynamic Analysis Dynamic Load Factor Illustration

C O U R S E C O N T E N T

Theory and Introduction

Presentation and discussion on Dynamic Analysis theory and basics The Dynamic Load Factor Modal Response Multipliers Eigen solver Algorithm Accuracy of the Dynamic Model

Complete the registration form and fax it to 031 764 5934 or e-mail

through to lkylander@chempute.com.

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

Alan Stewart

Born in Zambia in 1957, Alan Stewart

has been involved in Pipe Stress

Analysis work for many years. He

attended lectures in Finite Element

Stress Analysis and General Stress/

Strain theory at Wits University -

1984. Later, he attended formal CAE-

SAR training conducted by Rex Evans

(co-founder of Coade), followed by

training in FE/Pipe by Tony Paulin (co

-founder of Coade and Paulin Re-

search Group), and Advanced Caesar

training by Dave Diehl (head of train-

ing at Coade).Alan has been pre-

senting CAESAR training courses for

Chempute Software for nearly 20

years, during which time he has pre-

sented around 50 training courses in

both Basic and Advanced Topics, in

South Africa, Nigeria, Kuwait, UAE,

and Saudi Arabia. He is a pipe stress

consultant to companies such as

Eskom, Babcock, Steinmuller, DB

Thermal, Lurgi, Foster Wheeler, and

Bateman.

D E L E G A T E S I N F O R M A T I O N :

Title: ______ Surname: _______________________ First Name:_______________________ Full Company Name: _______________________ Job Title: ________________________ Vat Registration Number: ______________________ Postal Address (to which invoice must be sent): _________________________________________________________________________________ _________________________________________ Code: __________ Tel: (_____)___________________Fax: (___)___________________Cell: ______________________ E-mail: ________________________________________ Special Dietary Requirements: ________________________________ Contact/Accounts Information: Title: ______ Surname: _______________________ First Name:________________________ Tel: (_____) _________________ Fax: (_____) __________________ E-mail: _______________________________________ Cost of Course: 1st Delegate R17,500 + 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 registra-tion form: Signature: ___________________________ Date:___________________

C O U R S E N A M E D A T E S

Advance Pipe Stress Analysis using CAESAR II 18—22 JUNE 2018

T I M E S D U R A T I O N

8:00 a.m.—4:30 p.m. 5 Days

L O C A T I O N C P D P O I N T S

Chempute Software / Unit G14 5 – (SAIMechE 1093-10/20)

Pinewood Office Park, Pinewood Square,

33 Riley road,

Woodmead, Sandton

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