22.07.2022, 00:57
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Pipe Stress Analysis Complete Course From Pass
Published 6/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 12.65 GB | Duration: 24h 56m
Pipe Stress Analysis Basics and Advanced Techniques. For Beginners and for Experienced Pipe Stress Engineers
What you'll learn
Pipe stress analysis theory. Load types. Stress types. Bourdon effect. Creep effect in high temperature piping, creep rupture usage factor (Appendix V ASME B31.
ASME B31.1, ASME B31.3, ASME B31.4, ASME B31.5, ASME B31.8, ASME B31.9, ASME B31.12 code requirements for pipe stress analysis
How to use PASS/START-PROF software for pipe stress analysis
How to work with different load cases
How to model different typs of piping supports, spring selection
What is stress intensification and flexibility factors and how to calculate them using FEA and code requirements
How to model trunnion and lateral tees
How to model pressure vessels and columns connection: modeling local and global flexibility, WRC 297, WRC 537, FEA
How to model storage tank connection (API 650)
How to model connection to air cooled heat exchanger API 661, fired heater API 560, API 530
How to model connection to Pump, Compressor, Turbine (API 610, API 617, NEMA SM23)
How to model buried pipelines: Submerged Pipelines, Long Radius Bends Modeling of Laying, Lifting, Subsidence, Frost Heaving, Fault Crossing, Landslide
Underground piplines Seismic Wave Propagation, Pipe Buckling, Upheaval Buckling, Modeling of Pipe in Chamber, in Casing with Spacers. Electrical Insulation kit
Minimum design metal temperature calculation MDMT calculation, impact test
Modeling of Expansion Joints, Flexible Hoses, Couplings
Import and export to various software: CAESAR II, AVEVA, REVIT, PCF format, etc.
How to do Normal Modes Analysis and how to interpret results
ASME B31G Remaining Strength of Corroded Pipeline Calculation
Requirements
No requirements to attend the course
Description
This course created by experienced piping stress analysis specialists covers all features of onshore above ground and underground piping and pipeline analysis. The course is based on PASS/START-PROF software applying, though it will be valuable for users of any other pipe stress analysis tools as it contains a lot of theoretical information.Who should attend: process, piping and mechanical engineers specialized in design and piping stress analysis for the specified industries:Oil & Gas (Offshore/Onshore)Chemical & PetrochemicalPower (Nuclear/ Non-Nuclear)District Heating/CoolingWater treatmentMetal industryTraining software: all trainees are provided with a free 30-days PASS/START-PROF license.Certificate: After finishing the course you will receive the certificate from udemy and also certificate from PASS.PASS/START-PROF provides comprehensive pipe stress analysis with related sizing calculations according to international and national codes and standards. First introduced in 1965, PASS/START-PROF combines a highly efficient solver, powerful analysis features, very friendly and easy user GUI, an intuitive 3D graphical pre/post-processor, and a detailed help system with embedded intelligence from generations of piping design experts.Course consists of pre-recorded video lectures, quizzes, examples and handout materials. Section 1. Working with PASS/START-PROF User Interface 339 minSection 2. Piping Supports 138 minSection 3. Stress Analysis Theory and Results Evaluation 237 minSection 4. Underground Pipe Modeling 249 minSection 5. Static and Rotating Equipment Modeling and Evaluation 244 minSection 6. Expansion Joints, Flexible Hoses, Couplings 106 minSection 7. Non-Metallic Piping Stress Analysis 99 minSection 8. External Interfaces 65 min
Overview
Section 1: Working with PASS/START-PROF user interface
Lecture 1 Creating the New Project
Lecture 2 Creating the Simple Piping System
Lecture 3 3D Graphics Window
Lecture 4 Modifying the piping model
Lecture 5 Units. Renumber Nodes. List of Components
Lecture 6 Material, Insulation, Pipe & Component Databases
Lecture 7 Valve modeling (2-way, 3-way, 4-way, with drive), Flange Leakage Check
Lecture 8 Operation Mode Editor
Lecture 9 Load Case Templates
Section 2: Piping Supports
Lecture 10 Restraint Types in START-PROF
Lecture 11 Limit stop, Trunnion on the Bend
Lecture 12 Restraint choosing philosophy, roller support
Lecture 13 Spring Hanger Selection
Section 3: Stress Analysis Theory and Results Evaluation
Lecture 14 Stress Analysis Results. Support Loads, Displacements, Wall thickness
Lecture 15 Load and Stress types. ASME B31.1, B31.3, B31.5, B31.9 Strength Criteria
Lecture 16 Appendix V. Creep effect. Strength check summary ASME B31.1, B31.3, B31.5, B31.9
Lecture 17 Bourdon effect. Restrained and unrestrained pipes. ASME B31.4, B31.8, B31.12
Lecture 18 Stress intensification factors. ASME B31J. FEA. Lateral tee, trunnion
Lecture 19 Minimum design metal temperature calculation (MDMT)
Section 4: Underground Pipe Analysis
Lecture 20 Buried pipelines Modeling. Soil Properties
Lecture 21 Pipe-soil Interaction Model. Bending, Sliding, and Restrained Zones
Lecture 22 Specific Behavior of Buried Pipelines. Methods of Thermal Expansion Compensation
Lecture 23 Ring Bending Stress. Stress in Insulation. Stress from Surface Load. Long Radius
Lecture 24 Landslide. Seismic Wave Propagation. Pipe Wall Buckling, Upheaval Buckling. Mode
Section 5: Static and Rotating Equipment Modeling and Evaluation
Lecture 25 Connection to pressure vessels
Lecture 26 Stress and flexibility calculation per WRC 297/107/537/PD 5500/FEM
Lecture 27 Connection to the horizontal vessels and columns. Connection to the storage tank
Lecture 28 Connection to fired heater, air cooled heat exchanger, Pump, Compressor, Turbine
Section 6: Expansion Joints, Flexible Hoses, Couplings
Lecture 29 Expansion Joints Properties and Behavior
Lecture 30 Expansion Joint Types
Section 7: Non Metallic Piping Stress Analysis
Lecture 31 HDPE, PVC, PP Thermoplastic Piping Stress Analysis
Lecture 32 FRP/GRP/GRE Piping Stress Analysis
Section 8: External Interfaces
Lecture 33 Import from PCF, Import from Excel, API
Lecture 34 MS Word, Neutral file, Autocad, BMP, Jpg, PCF, CAESAR II
Lecture 35 Import from AVEVA PDMS, E3D, MARINE into START-PROF and backward
Lecture 36 Import from AUTODESK REVIT into PASS/START-PROF
Lecture 37 Export and Import from PCF into PASS/START-PROF
Section 9: Other
Lecture 38 Normal Modes Analysis
Lecture 39 ASME B31G Remaining Strength of Corroded Pipeline Calculation
Junior and experienced piping design engineers and pipe stress engineers
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