SP3D Course

Accelerate your proficiency in plant design with our comprehensive SP3D course. Whether you're an aspiring piping designer or a seasoned professional, our expert-led program offers extensive training in SP3D, the industry-leading software for 3D plant design and modeling. Join us to unlock the full potential of SP3D and advance your career in plant design and engineering.

|| What will I learn?

  • Understand the layout, menus, and toolbars within the SP3D interface, gaining proficiency in navigating the software efficiently.
  • Develop the ability to create 3D models of various equipment such as vessels, pumps, compressors, and heat exchangers using SP3D's equipment modeling tools.
  • Learn to create complex piping systems, including routing pipes, adding fittings, valves, and supports, and ensuring compliance with industry standards and project specifications.
  • Acquire skills in creating structural components such as steel beams, columns, and connections, and integrating them seamlessly with the piping and equipment models.
  • Understand how to design electrical cable trays and raceways, route cables, and ensure proper segregation and support using SP3D's electrical design capabilities.
  • Learn to incorporate instrumentation components such as control valves, instruments, and junction boxes into the 3D model, ensuring accurate representation of control systems.
  • Master the use of SP3D's clash detection tools to identify and resolve clashes between piping, equipment, structural elements, and other components within the 3D model.
  • Gain proficiency in generating isometric and orthographic drawings directly from the 3D model, including annotations, dimensions, and bill of materials (BOM).

|| What will I learn?

  • Understand the layout, menus, and toolbars within the SP3D interface, gaining proficiency in navigating the software efficiently.
  • Develop the ability to create 3D models of various equipment such as vessels, pumps, compressors, and heat exchangers using SP3D's equipment modeling tools.
  • Learn to create complex piping systems, including routing pipes, adding fittings, valves, and supports, and ensuring compliance with industry standards and project specifications.
  • Acquire skills in creating structural components such as steel beams, columns, and connections, and integrating them seamlessly with the piping and equipment models.
  • Understand how to design electrical cable trays and raceways, route cables, and ensure proper segregation and support using SP3D's electrical design capabilities.
  • Learn to incorporate instrumentation components such as control valves, instruments, and junction boxes into the 3D model, ensuring accurate representation of control systems.
  • Master the use of SP3D's clash detection tools to identify and resolve clashes between piping, equipment, structural elements, and other components within the 3D model.
  • Gain proficiency in generating isometric and orthographic drawings directly from the 3D model, including annotations, dimensions, and bill of materials (BOM).

|| Requirements

  • Basic knowledge of plant design principles and familiarity with CAD software would be beneficial.
  • No prior experience with SP3D is required

|| Requirements

  • Basic knowledge of plant design principles and familiarity with CAD software would be beneficial.
  • No prior experience with SP3D is required

    • Introduction to SmartPlant 3D
    • Overview of SmartPlant 3D (SP3D) software and its applications
    • Understanding the user interface and navigation
    • Introduction to 3D plant modeling concepts


    • Workspace Setup and Configuration
    • Setting up the SP3D workspace and project environment
    • Configuring project settings and preferences
    • Understanding project hierarchy and organization


    • Equipment Modeling
    • Creating and editing equipment models (vessels, pumps, compressors, etc.)
    • Applying equipment specifications and data
    • Understanding equipment modeling best practices


    • Piping and Pipe Routing
    • Creating and routing piping systems
    • Applying piping specifications and standards
    • Understanding piping routing tools and techniques


    • Structural Modeling
    • Creating structural components (beams, columns, braces, etc.)
    • Applying structural specifications and data
    • Understanding structural modeling best practices


    • Electrical Cable Tray and Raceway Modeling
    • Creating cable trays and raceways
    • Routing electrical cables and conduits
    • Applying electrical specifications and standards


    • HVAC Ducting and Equipment Modeling
    • Modeling HVAC ducts and equipment (air handlers, ductwork, etc.)
    • Routing HVAC systems
    • Applying HVAC specifications and standards


    • Instrumentation and Control System Modeling
    • Modeling instrumentation components (control valves, transmitters, etc.)
    • Routing instrument lines and tubing
    • Applying instrumentation specifications and standards


    • Clash Detection and Resolution
    • Performing clash detection analysis
    • Identifying clashes and interferences between different components
    • Resolving clashes and optimizing design integrity


    • Isometric and Orthographic Drawing Generation
    • Generating isometric and orthographic drawings from 3D models
    • Adding annotations, dimensions, and labels to drawings
    • Customizing drawing templates and styles


    • Data Extraction and Reporting
    • Extracting data from SP3D models (bill of materials, material take-offs, etc.)
    • Generating reports and documentation for project deliverables
    • Understanding data extraction tools and techniques


    • Collaboration and Data Management
    • Collaborating with team members and stakeholders
    • Managing design revisions and version control
    • Integrating SP3D with other engineering software and systems


    • Customization and Automation
    • Customizing the SP3D environment and user interface
    • Creating macros and automation scripts using SP3D API
    • Implementing workflow automation and optimization


    • Case Studies and Real-World Applications
    • Analyzing real-world SP3D projects and case studies
    • Hands-on exercises and projects to reinforce concepts
    • Presentations and discussions on best practices and industry standards

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