CAESAR II Zabeel Institute – at a glance Zabeel Institute, established in 1988, is a leading Educational and Training Institute for executives in Dubai and is approved by the Ministry of Education, UAE. We offer training programs to professionals from various industries like Engineering, Petroleum , Construction, Projects, Accounts & Finance, and Management, Languages etc. The Zabeel Advantage
22 Years Experience in training Professional Executives Achiever of many QUALITY AWARDS for training from 1988 till date Qualified & Certified Trainers Sophisticated Lab with High end machines and Licensed software Certificates attested by the Ministry of Education, UAE Vast resource materials for reference and course materials Free online support for further assistance Free follow up orientation seminars & workshops & placement assistance
CAESAR II –for Pipe Stress Analysis
COURSE DESCRIPTION This course is designed for almost anyone involved with piping in the petroleum, chemical, power, gas transmission, and related industries . The course covers proper system modelling guidelines, methods of static and dynamic analysis of piping systems, evaluation of system designs, and effective approaches to system redesign which helps Piping/Vessel Maintenance Engineers, Piping Designers, New & Experienced CAESAR II Users, Mechanical/Design Engineers, Engineering Managers, Plant Managers, and fresh graduate mechanical engineers who wants to become a piping engineer and who would like to pursue their career in Plant design industry specifically as a PIPE Stress Analyst.
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Prerequisites: • Drafting, design, or engineering experience is required. • Basic Plant design/ engineering knowledge is required. • Working knowledge of AutoCAD. • It is also recommended that you have a working knowledge of Microsoft® Windows® XP, Microsoft® Windows® 2000, or Windows NT® 4.0.
Certification : Certificates will be issued at the end of the course attested by the Ministry of Education , UAE COURSE OUTLINE Part 1 _ Role of the stress analyst _ When to perform stress analysis _ Piping Code History _ Stress theory; evaluating stresses on piping & knowing which ones matter _ Load types, Failure criteria; primary & fatigue failures _ Code equations, Stress Intensification (SIFs) _ Overview of CAESAR II functions and how to use the program _ Detailed, important modelling issues – bends, reducers, valves, rigid elements, control parameters, non-linearity of restraints, connecting nodes, built-in databases and assorted modelling issues. _ The mathematics behind CAESAR II – Stiffnes-s matricies and related issues _ Practical examples using CAESAR II; input, analysis & redesign
Part 2 _ Theory - Designing for sustained loads; support configuration issues, spring hanger design, optimization of sustained loads. _ Practical example _ Theory - Designing for expansion loads; flexibility _ Practical Examples
Part 3 _ _ _ _ _ _ _
Detailed problem solving of a complex model, including: Imposed thermal displacements Expansion joint modelling & evaluation Structural steel modelling Spring hanger design Combining steel with piping Verification of API 610 pump loads
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_ Local vessel flexibilities using WRC 297 _ Including vessel modelling _ Evaluation of local vessel stresses according to WRC 107 _ Problem Solving Workshop – detailed example where each student works independently, applying what is learned to solve a variety of stress and equipment load problems. _ Buried pipe modelling.
Part 4 & 5 _ Dynamic analysis theory, types of loads & evaluation of system responses _ Modes and mode shapes _ Modal analysis _ Spectral Analysis; Impact & Earthquake analysis _ Time History Analysis _ Harmonic loads & harmonic analysis _ Flow induced vibration _ Mechanical vibration _ Impact load types & analysis _ Steam hammer _ Slug flow _ Relief valve firing _ Example problems including: _ Mechanically induced vibration problems & solutions _ Flow induced vibration problem & solution _ Time History analysis and evaluation of impact load (steam hammer) with dynamic restraint (snubber) _ Spectral analysis of impact load (Relief valve firing ) _ Earthquake analysis
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