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04. How to model Concrete Encased Steel Pipe for subsea / underwater piping using AutoPIPE?
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01a. Model Different Types of PIPING in AutoPIPE
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01b.Model Different Types of PIPING Components - AutoPIPE
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01c. Model Non-metallic Plastic Piping (i.e. Plastic, PVC, PP, PPR, HDPE, PE, FRP, GRP, etc.)
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01d. Model a Ring Main (circular header) with AutoPIPE
01e. Model a LONG PipeLines with AutoPIPE
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01f. Model Different Types of PIPING Routings (i.e. By-Pass, Join 2 pipe runs, etc..) using AutoPIPE
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02a. Model Subsea (Underwater) Piping - AutoPIPE
01. Model Pipe resting on the seabed floor using AutoPIPE
02. How to model a Concrete Mattress for subsea / underwater piping using AutoPIPE?
03. How to model riser clamps on subsea / underwater piping using AutoPIPE?
04. How to model Concrete Encased Steel Pipe for subsea / underwater piping using AutoPIPE?
05. Is AutoPIPE software suitable for the analysis of subsea pipeline crossings?
06. Does AutoPIPE consider external pressure or temperature for underwater / subsea piping?
07. Is AutoPIPE suitable for deep offshore analysis as regard to calculating true pipe wall force which will take into consideration the end cap effect and external pressure?
08. Is it possible to simulate the free catenary for subsea / underwater pipeline using AutoPIPE?
09. What soil calculation method should be applied to underwater / subsea piping when using AutoPIPE?
10. How many nodes need to put at the pipeline's Wave / surface interface in order to simulate the hydrodynamic forces CD and CM values on an underwater / subsea piping when using AutoPIPE?
11. How to enter Hydrodynamic data for mass points located between actual node points in AutoPIPE?
12. What are typical Hydrodynamic Data settings for seabed piping and riser on offshore underwater / subsea piping using AutoPIPE?
13. How can I verify if hydrodynamic data is being applied to my seabed piping model when using AutoPIPE?
14. Is marine growth thickness on a riser pipe included for Buoyancy loads and Wave loads for AutoPIPE analysis?
15. On long risers supported at the bottom, does AutoPIPE calculate the compressive stresses due to selfweight?
16. In AutoPIPE, how are the hydrodynamic coefficients determined when they are set to Automatic?
17. All hydrodynamic coefficients change significantly when a pipe comes close to, or lies on the seabed. Is this effect incorporated automatic in AutoPIPE's calculations?
18. How to model a subsea expansion loop in AutoPIPE?
19. Can all dynamic analysis (ex. Response Spectrum, time history, Harmonic, etc..) be performed on underwater piping correctly while using AutoPIPE?
02b. Modeling Offshore Piping per BS8010 or CSAZ662 section 11 Piping Codes
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02c. Model Soil Properties with Soil Calculator and Underground Piping in AutoPIPE
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03a. Model Rotating Equipment: Pumps, Compressor, Turbine in AutoPIPE
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03b. Modeling Vessel / Nozzles in AutoPIPE
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03c. Modeling Support and Beam Structures in AutoPIPE
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03d. Modeling Anchors in AutoPIPE
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04a. Modeling Seimic Analysis - AutoPIPE
04b. Model Buckling - AutoPIPE
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04d. Model Concentrated Forces - AutoPIPE
04f. Model Vacuum (Negative Pressure) Piping in AutoPIPE
04g. Model Fluid / Gas Density in AutoPIPE
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04h. Modeling Thermal type load cases with AutoPIPE
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04i. Model Pump / Compressor (Oscillating) Vibration - AutoPIPE
04j. Model Flow (Oscillating) Vibration - AutoPIPE
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04k. Model Blast Loading in AutoPIPE
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04l. Model Cut short / Cut long in AutoPIPE
04m. Model Cryogenic piping in AutoPIPE
04n. How to model / perform Creep Analysis with AutoPIPE?
04o. How to model a Smart Pig going thru the Pipeline in AutoPIPE?
04p. Input node point displacement / acceleration from field data in AutoPIPE?
04r. How to model a Relief Valve thrust force in an AutoPIPE model?
04s. How to model a thrust via a flowing fluid (i.e. impulse-momentum change equation) to an AutoPIPE model?
04t. How to model the load on a piping system installed on a ship, Rig, or FPSO (Floating Production Storage and Offloading) when using AutoPIPE?
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05a. Cut / Copy / Paste / Rotate / Move / Stretch Commands
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05b. AutoPIPE command - "Convert Point to" - Run, Bend, or Tee
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05d. Delete Command in AutoPIPE
06a. Modeling approach to account for piping beyond modeled piping
06b. Apply More Than 1 Piping Code In an AutoPIPE Model
06c. How to model a liquid (water) / gas (foam or air) Fire Protection piping system in AutoPIPE?
06d. How to model vaporization / boiling of liquid in pipe that causes a pressure wave to travel up the line in AutoPIPE?
06e. How to model a pipe riser (vertical pipe) to correctly account for GR weight on each floor support in AutoPIPE
06f. Modeling a Manway / access port in a pipe sidewall using AutoPIPE
06g. Using load case displacement as a new starting point for analysis in AutoPIPE?
06h. How to model node point shared by more than 1 model?
06i. How to model miss aligned pipe pulled back into original position using AutoPIPE?
06j. How to model lifting pipe segment(s) using AutoPIPE?
06k. How to model piping systems not aligned with the global axis using AutoPIPE?
7a. Modeling scenario using AutoPIPE: hot tapping a pipeline under operating condition, stresses in system after plant shutdown
7b. Model Joule-Thomson effect and solving the transient heat transfer through the thickness of the pipe using AutoPIPE?
Tutorial - Water Hammer (Time History) Example - Modeling Approach in AutoPIPE
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04. How to model Concrete Encased Steel Pipe for subsea / underwater piping using AutoPIPE?
Revision
Creation Date
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Current Revision
Tue, Dec 20 2016 12:59 PM
Mike Dattilio
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