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  • Course Content

  • 13 lectures

  • 100h Duration

  • Understanding ASME BPV Code
  • Why ASME Section VIII Div-2?
  • ASME Section VIII Div-1 Vs ASME Section VIII Div-2 - Key Differences
  • Structure of ASME Section VIII Div-2
  • Important code definitions (Annex 1-B)
  • ASME Section VIII Div-2 - Scope and limitations.
  • ASME Section VIII Div-2 - Class 1 vs Class 2
  • The Designer, The Engineer and The Certifying Engineer
  • User's Design Specifications (UDS) and Manufacturer's Design Report(MDER) - Contents and Certification
  • Annex-3A, ASME Section II Part D , Factor of safety
  • Table 1.1 : Year of Acceptable Edition of Referenced Standards in This Division
  • Categories of weld Joints
  • Joint Efficiency and Examination Group as per Part 7

  • Requirements for Class 1 vs Class 2 Design Methodology
  • Loads and Load Combinations
  • Requirements of various weld categories (A,B,C,D,E,F)
  • Mill Tolerance on Plates and Pipes
  • Important Definitions and Nomenclature
  • Concept of MAWP
  • Liquid Static head calculations
  • Units and Conversion
  • Thickness calculation for internal pressure for ...Read More

  • Failures caused by External Pressure & Concept of External
  • How external pressure works.
  • Difference in Methodology for Div.1 vs Div.2
  • Line of support concept
  • Thickness calculation for External pressure ...Read More
  • Concept of Stiffener design for external pressure
  • Procedure for Stiffener design for external pressure
  • Moment of inertia calculations for various stiffener cross sections.
  • Manual calculations of stiffener sizing

  • Types of nozzles
  • Nozzle neck thickness calculation criteria
  • Nozzle neck thickness calculation as per para 4.3 and 4.4
  • Methods of Nozzle Attachment
  • Shape of Opening
  • Design of openings in Cylindrical shells: ...Read More
  • Design of openings in Conical shells: ...Read More
  • Design of openings in Formed Heads: ...Read More
  • Manual Problem solving for Set in Nozzle
  • Concept of Multiple openings criteria for Vessels
  • Manual Problem solving for Set on Nozzle
  • Manual Problem solving for multiple openings
  • Manual Problem solving for openings in flat head

  • Types of Flanges as per its application.
  • Selection OF Standard Flanges
  • Scope Of Para 4.16
  • Type of flanges as per Para 4.16
  • Flange design concept and steps as per Para 4.16
  • Defining Flange Geometry for Integral flange
  • Defining Flange Geometry for Loose ring type.
  • Blind Flange Design concept
  • Checking of Standard Flanges for External Forces and Moments
  • Manual Problem for Integral Flange
  • Manual Problem for Loose ring Flange
  • Blind Flange Design calculations and fininding deflection as per TEMA

  • Welding Procedure understanding
  • HAZ and Residual stress understanding
  • How stress relieving works?
  • Understanding the need and significance of PWHT (Para 6.4)
  • PWHT exemption requirements in ASME codes
  • Procedures and methods for PWHT
  • PFHT requirements of code
  • Heating / cooling rates
  • Manual problems solving for PWHT and PFHT calculations

  • Low temperature working of different material
  • Governing thickness concept for impact testing
  • Understanding Impact test requirement
  • Impact test code exemptions
  • Impact test acceptance criteria
  • Material Thickness criteria for impact test
  • Impact test exemption curves
  • Manual Problem solving for Impact testing requirement

  • Lifting Lug Design
  • Lifting Lug Design-PvElite

  • Pressure Testing Requirements
  • Important definitions- MAWP, LSR, Calculated test pressure
  • Hydrostatic Test requirement and significance
  • Hydrostatic test procedure and code requirements
  • Pneumatic Test requirement and significance
  • Pneumatic test procedure and code requirements
  • Calculating test pressures, Inspection pressures
  • Understanding pressurization stages , Test temperatures, Test Time significance.
  • Proof tests to establish maximum allowable working pressure
  • Manual Problem Solving and PvElite hydrotest calculations

  • Understanding Concept of Wind load
  • Calculation of wind load as per IS 875
  • Understanding concept Of Seismic load
  • Calculation of seismic load as per IS 1893
  • Concept of Combine Loading
  • Manual Problem Solving for seismic Load + PvElite calculations
  • Manual Problem Solving for wind Load + PvElite calculations
  • Manual Problem Solving for combine loadings + PvElite calculations

  • Material Certification
  • Ultrasonic Examination
  • Magnetic Particle/Liquid Penetrant Examination
  • Requirements for Bolting Materials
  • Impact Test Requirements
  • Requirement for Material Test Coupons for Vessels subject to Heat Treatment
  • Effect of alloying elements on material properties
  • Material product forms
  • Material specifications
  • Material selection guide

  • Types of Supports
  • Significance of following types of supports
  • Skirt Support
  • Leg Support
  • Lug Support
  • Saddle Support
  • Stresses in Vessel due to Saddle Locations
  • Procedure for saddle support location
  • Calculation of stresses in vessel component as per Zic Method (Div.2)
  • Manual Problem Solving for calculation of stresses in vessel
  • Manual Problem Solving for saddle support design
  • WRC concept and sign conventions

  • Concept of Fatigue
  • Fatigue Evaluation as per para 5.5.2.2
Static Equipment Design Training Combo By Express Engineering Solutions

This Course Includes:

  • 100 hours on-demand videos
  • Expret-Curated Content
  • Live Q&N Session
  • Certificate of completion
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