Courses
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Introduction to ASME VIII-2 Chapter 5By: Dynaflow Research Group
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API 510: Pressure Vessel InspectionBy: Igor Martic
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API 570: Piping InspectorBy: Igor Martic
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API 577: Welding, Inspection and MetallurgyBy: Igor Martic
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API 580: Risk Based Inspection (RBI)By: Igor Martic
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ASME BPVC VIII-1: Components Subjected to External PressureBy: Dynaflow Research Group
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ASME BPVC VIII-1: Components Subjected to Internal PressureBy: Dynaflow Research Group
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ASME BPVC VIII-1: Flat Heads and FlangesBy: Dynaflow Research Group
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ASME BPVC VIII-1: Heat ExchangersBy: Dynaflow Research Group
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ASME BPVC VIII-1: Openings in ShellsBy: Dynaflow Research Group
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ASME BPVC VIII-1: Stress Concepts and AllowablesBy: Dynaflow Research Group
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ASME BPVC VIII-1: Vessels of Non-Circular Cross Section and Half Pipe JacketsBy: Dynaflow Research Group
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ASME BPVC VIII-2: Buckling & Local Failure and Compliance ChecksBy: Dynaflow Research Group
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ASME BPVC VIII-2: Evaluating Plastic Collapse and performing Stress LinearizationBy: Dynaflow Research Group
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ASME BPVC VIII-2: Fatigue Failure Mode and Compliance ChecksBy: Dynaflow Research Group
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ASME BPVC VIII-2: Ratcheting Failure Mode and Compliance ChecksBy: Dynaflow Research Group
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Acoustic Induced Vibrations (AIV)By: Dynaflow Research Group
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Acoustic and Flow Induced Vibrations (AIV and FIV) in Industrial SystemsBy: Dynaflow Research Group
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Acoustic and Flow Induced Vibrations (AIV, FIV) in Industrial SystemsBy: Dynaflow Research Group
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Actuated Valve ManufacturingBy: Frans Martens
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Actuated Valves: the FundamentalsBy: Frans Martens
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Additional Features in BOSfluidsBy: Dynaflow Research Group
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Additional Topics in NozzlePROBy: Dynaflow Research Group
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An Overview of BOSfluidsBy: Dynaflow Research Group
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Anti-Friction Bearing FundamentalsBy: saVRee
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Axisymmetric Models, Fatigue & Linearization in FEPipeBy: Dynaflow Research Group
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BOSfluids Live DemonstrationBy: Dynaflow Research Group
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BOSpulse Foundations: Pulsation AnalysisBy: Dynaflow Research Group
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Basic Analyses with NozzlePROBy: Dynaflow Research Group
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Basics of Pipe Stress according to ASME B31.3 and EN 13480By: Dynaflow Research Group
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Buried Pipe Buckling and Soil SettlementBy: Dynaflow Research Group
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Buried Pipe Modelling in CAESAR IIBy: Dynaflow Research Group
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Buried Piping Engineering using CaesarIIBy: Dynaflow Research Group
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Buried Piping conform to NEN 3650By: Dynaflow Research Group
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Buried Piping: Buoyancy failuresBy: Dynaflow Research Group
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Code Conformance for FRP piping: ISO 14692By: Dynaflow Research Group
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Components in a Piping AnalysisBy: Dynaflow Research Group
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Comprehensive Guide to FatigueBy: Johannes Homan
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Compressors: Operation and MaintenanceBy: Dimitris Antoniadis
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Corrosion Engineering and Corrosion Resistant AlloysBy: Phil Bralsford
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Crude Oil SelectionBy: Sanda Telen
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Cybersecurity Awareness Training for Industrial SystemsBy: Ted Angevaare
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Design and Analysis of FRP piping systems according to ISO 14692By: Dynaflow Research Group
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Design of Concrete and Steel StructuresBy: Mohamed El-Reedy
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Design of Offshore StructuresBy: Mohamed El-Reedy
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Designing according to the ASME BPVC VIII-1 codeBy: Dynaflow Research Group
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Designing according to the EN 13480 codeBy: Dynaflow Research Group
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Designing according to the EN13445 codeBy: Dynaflow Research Group
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Dynamic Assessment using FEPipeBy: Dynaflow Research Group
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Dynamic Pipe Stress TheoryBy: Dynaflow Research Group
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Dynamic Pipe Stress: Modal, Harmonic, Spectrum and Time HistoryBy: Dynaflow Research Group
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Dynamic Pipe stress: Examples and Methods ComparisonBy: Dynaflow Research Group
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Dynamic Stress Analysis of Industrial Piping SystemsBy: Dynaflow Research Group