Bentley Institute

Design with true 3D parametric modeling

  • Develop even the most complex design models with a wide range of design modeling tools, including surface, mesh, feature, and solid modeling. Build parametric functional components with predefined variations to easily find and manage many similar components. Use drawing extraction tools which automatically immerse drawings within models for improved clarity and streamlined documentation workflows.

AutoPIPE Nuclear Capabilities

 

Analyze and visualize pipe stress
  • Provide confidence in the safety of your engineering designs with static and load sequencing nonlinear analysis. Perform analyses to examine different loading scenarios including thermal, seismic, wind, and dynamic load cases. Instantly view stresses, deflections, forces, and moments.
Check pipe stress displacements and clashes
  • Increase plant model accuracy by determining pipe stress displacements due to loading cases such as temperature, seismic, or other extreme loading conditions. Analyze any loading condition applied to piping and structures then use Navigator or OpenPlant Modeler to evaluate and resolve clashes.
Comply with industry codes and standards
  • Ensure your projects comply with more than 30 global design standards across the power, nuclear, offshore, chemical, and oil and gas industries. Incorporate ASME, British, European, French, Japanese, Russian, API, NEMA, ANSI, ASCE, AISC, UBC, ISO, and WRC guidelines and design limits.
Design and model piping
  • ​Design, model, and analyze 3D piping systems to international piping specifications based on parametric component catalogs. Integrate the 3D piping model with pipe stress analysis tools to increase design quality and design productivity. Improve the overall engineering integrity and quality of piping models.
Reference structural model for pipe stress analysis
  • Reuse design data by creating a structural model in STAAD or SACS and import it into AutoPIPE for a more realistic, fully integrated, bi-directional piping and structural analysis. You can also import the final piping model, complete with pipe support loads, into the Bentley STAAD or SACS model.​