Piping Stress Design And Analysis Course


  • PIPING STRESS DESIGN COURSE DEALS WITH REQUIREMENTS APPLICABLE TO THE DESIGN, FABRICATION, INSPECTION AND TESTING OF STATIC EQUIPMENT.
  • ALL PRACTICAL ASPECTS OF PIPE STRESS ANALYSIS WITH SOLVED INDUSTRIAL EXAMPLES.
  • DETAILED EXPLANATION VIA DRAWINGS, SKETCHES, IMAGES AND PRESENTATION.
  • INHOUSE HAND AND SOFTWARE CALCULATION.
  • ASME B 31.3 CONCEPTS COVERED.
  • HIGHLY EXPERIENCED FACULTY WORKING IN OIL AND GAS, CHEMICAL AND PETROCHEMICAL DOMAIN.
  • Understand and Implement the Code rules and clauses.
  • Perform Design Calculations as well as Technical Document review.
  • Prepare reports, specifications, attend client and vendor queries.
  • Perform estimation studies and prepare proposals.
  • Piping Inspection assistance.
  • Software Competency.
  • Stress Strain Diagram, Failure of Materials, Stress range reduction factor – f.
  • B31.3 Requirements for Allowable Stress
  • B31.3 Requirements for Pipe Stress & Supports, B31.3 Stress Range Concepts
  • B31.3 Liberal Stress Concepts
  • Expansion Loops & Expansion Joints
  • Sustained, Thermal Expansion Stress & Loads.
  • Occasional Stress & Loads (Slug, PSV, Wind, Seismic,) Nozzle Load Check Report
  • API 610 (Centrifugal Pump Line analysis)
  • NEMA SM 23 (Turbine Line analysis)
  • Introduction to Pipe Supports.
  • Pipe Support Span Calculations.
  • Dummy Pipes / Trunnion Supports Uses & Calculation.
  • Variable Spring and Constant Spring Supports Detail & Applications.
  • Pipe Support Locations & Types.
  • Types of pipe loads (Static and Dynamic) & directions.
  • Prepare sketch of secondary support with Loads for submission to civil
  • Calculating Piperack Loads.
  • Wind load design on piping systems.
  • Introduction to Bellow Design (EJMA)
  • EJMA Details.
  • Types Of Expansion Joints
  • Pressure Thrust Concept in Expansion Joints
  • Piping Flexibility Using Expansion Joints.
  • Location & Type of Supports Around Expansion Joints.
  • Reference Catalogues.
  • Stress Design Basis & Inputs required to perform stress analysis.
  • Stress Critical Line List: Meaning, Definition & its Preparing.
  • Fix & Sliding support location of Vessels & Heat Exchanger.
  • Stress engineer roles and responsibilities.
  • Setting Unit File & Configuration File.
  • Process data input such as pressure, fluid density, temp, Pipe Dia, Pipe Thk & pipe modelling Selection of correct ASME code.
  • Load Case Preparation and study of various load combinations.
  • Code ratio check.
  • Support Load check.
  • Lift up condition check.
  • Pipe displacement check.
  • Assessing Equipment Allowable Loads.
  • Combining Piping Systems.
  • Nozzle load failure check.
  • Hands on practice for 4-6 Problems.
  • Nozzle load check as per WRC 107/297.
  • Flange Leakage Check.
  • Stress report generation & review.
  • Stress analysis checklist.
  • INDUSTRY ORIENTED TOPICS.
  • DETAILED UNDERSTANDING OF CODE CONCEPTS.
  • DETAILED STUDY OF STANDARDS AND SPECIFICATIONS.
  • PRESENTATION SLIDE EXPLANATION.
  • EXHAUSTIVE STUDY MATERIAL: HAND WRITTEN NOTES AND REFERENCE BOok1S.
  • LIVE INDUSTRIAL EXAMPLES.
  • TESTS, EXAM AND LIVE PROJECT WORK.
  • PIPING DESIGN ENGINEERS.
  • LAYOUT ENGINEERS.
  • ESTIMATION AND PROPOSAL ENGINEERS
  • PIPING INSPECTION ENGINEERS.
  • MAINTAINENCE ENGINEERS.
  • GRADUATE MECHANICAL AND CHEMICAL ENGINEERS
  • PLANT ENGINEERS.
MODE OF CONDUCTING THE COURSE
  • ONLINE

  • OFFLINE
BATCH
  • ONE TO ONE COACHING

  • BATCH MODE
TRAINING DATES AND TIMINGS ARE VERY FLEXIBLE AS PER REQUIREMENT..