# SmartPlant 3D > Edoxi offers a 35-hour Online SmartPlant 3D Course Training. You will improve design accuracy and consistency in engineering and plant projects. Enrol Now! ## Course Details - Rating: 4.9/5 (48 reviews) - Category: Technical & Creative Design - Sub-Category: MEP Design ## Course Introduction Edoxi’s 35-hour Online SP3D (SmartPlant 3D) Course builds your expertise in 3D plant design. The course includes training on SmartPlant software. You will learn to model industrial equipment, structures, and piping systems using smart tools and parametric shapes. Gain experience in real-world project implementation by working in a configured SP3D environment. The course is customizable for corporate clients with specific project requirements. This course will prepare you for roles such as Structural Designer, SP3D Modeller, Plant Design Coordinator and Senior Drafter. Enrol now and gain a competitive edge in the design and construction industry globally. ## Course Overview - Delivery Modes: Online - Course Duration: 35 Hours - Corporate Days: 7 Days - Learners Enrolled: 80+ - Modules: 8 ## What will you learn from the SmartPlant 3D Course? **Plant Engineering Fundamentals** You will learn SP3D workflows, user interface, and session management for efficient power plant design. **Equipment and Structure Modelling** You will learn to model equipment using parametric shapes, grids, and coordinate systems. **Intelligent Piping Systems** You will learn to implement piping with automated routing, specifications management, and component placement. **Cross-discipline Integration** You will integrate piping, structural, electrical, and HVAC systems with validation tools for consistency. **Transforming 2D Drawings to 3D Models** You will convert 2D power plant drawings into detailed 3D models using SP3D tools. **Engineering Automation** You will learn to apply rules-based design principles and automate workflows for quality control. ## About This Course ## About Our SmartPlant 3D Course SmartPlant 3D training will help you gain the skills to transform 2D drawings into 3D models, automate processes, and save time. Edoxi’s 35-hour Online SP3D training program covers every aspect of plant design systems. Our SP3D Training will help you gain expertise in equipment modelling, structural design, piping systems, and multi-discipline integration.  Our SmartPlant 3D course includes practical applications. You will work on various plant types, including chemical processing units and power plants. Edoxi’s Online SP3D training covers piping, structural frameworks, electrical systems, and HVAC. The SmartPlant 3D training course focuses on advanced modelling techniques to design process facilities for industries like downstream processing, offshore platforms, and power generation.  For organisations with specific needs, we provide customised SmartPlant 3D training for unit designs like Sulphur Recovery Units (SRU), Amine Recovery Units (ARU), or Gas Turbine Units (GTU). This flexibility ensures teams gain targeted expertise directly applicable to their projects. Read More ## Features of the SP3D Course **Hexagon SP3D Training Setup** You will get access configured SP3D software environment for hands-on plant design practice. **Industry Project Implementation** You will work on a complete stabiliser unit project, applying real-world engineering principles and standards. **Multi-discipline Integration** You will learn to coordinate between piping, structural, electrical, and HVAC systems within a unified project environment. **Engineering Documentation** You will master the generation of isometric drawings, material take-offs, and technical deliverables. **Practical Design Sessions** You will practice with reference data management, equipment modelling, and automated design validation tools. **Hands-on Practice Sessions** Our hands-on training sessions will provide you with valuable exposure to the advanced tools in SmartPlant 3D. ## Who Can Join Our Online SmartPlant 3D Training? **Fresh Engineering Graduates** Engineers and diploma holders in mechanical, civil, electrical, and architectural disciplines **Design Professionals** 2D CAD professionals and drafters looking to upgrade their skills to modern 3D plant design systems. **Field Engineers** Construction and site engineers aiming to transition into detailed engineering and design roles. **Technical Specialists** Professionals from process plants, oil and gas, and power plant sectors. **Career Transitioners** Field professionals wanting to move into office-based engineering roles with advanced design capabilities. **Technical Teams** Corporate engineering teams requiring upskilling in modern plant design methodologies. ## SP3D Course Modules ### Module 1: SP3D Common Training **Chapter 1.1: User Interface** - Lesson 1.1.1: Overview - Lesson 1.1.2: Layout **Chapter 1.2: Session Management** - Lesson 1.2.1: Session Template - Lesson 1.2.2: Session File - Lesson 1.2.3: Options **Chapter 1.3: View Manipulations** - Lesson 1.3.1: Common Views - Lesson 1.3.2: Zoom Tool - Lesson 1.3.3: Window Area - Lesson 1.3.4: Refresh View - Lesson 1.3.5: Active View Control - Lesson 1.3.6: Rotate View - Lesson 1.3.7: Looking at Surface **Chapter 1.4: Formatting Active View** - Lesson 1.4.1: View Format - Lesson 1.4.2: Surface Style Rules **Chapter 1.5: Filters** - Lesson 1.5.1: System - Lesson 1.5.2: Assembly - Lesson 1.5.3: Spatial (Volume or Planes) - Lesson 1.5.4: Logical Permission Group - Lesson 1.5.5: Object Types - Lesson 1.5.6: Properties **Chapter 1.6: Insert Options** - Lesson 1.6.1: Control Points - Lesson 1.6.2: Notes - Lesson 1.6.3: Hyperlink **Chapter 1.7: Measure** - Lesson 1.7.1: Distance - Lesson 1.7.2: Minimum Distance Between Objects - Lesson 1.7.3: Angle **Chapter 1.8: Tool Tips** - Lesson 1.8.1: Label Editor ### Module 2: SP3D Equipment Training **Chapter 2.1: Overview** - Lesson 2.1.1: Standard Parametric/Non-Parametric Equipment Placement - Lesson 2.1.2: Modeling Equipment Using Primitive Shape - Lesson 2.1.3: Using 3rd Party Software – SAT Format (Solid Edge v-14) **Chapter 2.2: Aspects** - Lesson 2.2.1: Physical Aspect - Lesson 2.2.2: Insulation Aspect - Lesson 2.2.3: Maintenance Aspect **Chapter 2.3: Ports** - Lesson 2.3.1: Piping Port - Lesson 2.3.2: Ducting Port - Lesson 2.3.3: Cableway Port - Lesson 2.3.4: Conduit Port - Lesson 2.3.5: Cable Port - Lesson 2.3.6: Foundation Port **Chapter 2.4: Placing Design Equipment** - Lesson 2.4.1: Equipment from Catalog (Standard) - Lesson 2.4.2: Equipment by Shapes **Chapter 2.5: Relationships / Constraints** - Lesson 2.5.1: Mate - Lesson 2.5.2: Align - Lesson 2.5.3: Connect - Lesson 2.5.4: Minimum Distance (E-W, N-S, Vertical) - Lesson 2.5.5: Parallel - Lesson 2.5.6: Mate to Tangent Plane **Chapter 2.6: Smart Sketch Options** - Lesson 2.6.1: Pinpoint - Lesson 2.6.2: Locate on Display List - Lesson 2.6.3: Locate on List Only **Chapter 2.7: Manipulation Commands** - Lesson 2.7.1: Select Command - Lesson 2.7.2: Delete Command - Lesson 2.7.3: Undo Command - Lesson 2.7.4: Move Command - Lesson 2.7.5: Rotate Equipment - Lesson 2.7.6: Rotate Command - Lesson 2.7.7: Open the Properties Page - Lesson 2.7.8: Copy/Paste Command **Chapter 2.8: Place Imported Shape from File** - Lesson 2.8.1: Equipment from SAT File **Chapter 2.9: Place Equipment from PID** - Lesson 2.9.1: Retrieving PID - Lesson 2.9.2: Placing Equipment from PID - Lesson 2.9.3: Comparing Data - Lesson 2.9.4: Updating Data **Chapter 2.10: Nozzle Placement** - Lesson 2.10.1: Placing Nozzles with Graphics - Lesson 2.10.2: Nozzles with No Graphics - Lesson 2.10.3: Nozzles from PID **Chapter 2.11: Modification** - Lesson 2.11.1: Using the Property Page ### Module 3: SP3D Structural Training **Chapter 3.1: Overview** - Lesson 3.1.1: Grids - Lesson 3.1.2: Coordinate Systems - Lesson 3.1.3: Smart Plant Structure **Chapter 3.2: Grids & Coordinates** - Lesson 3.2.1: Grid Wizard - Lesson 3.2.2: Placing Coordinate System - Lesson 3.2.3: Modifying Grids - Lesson 3.2.4: Adding Grid Planes - Lesson 3.2.5: Rotated Coordinate Systems - Lesson 3.2.6: Rotated Planes **Chapter 3.3: Member Types** - Lesson 3.3.1: Beams - Lesson 3.3.2: Columns - Lesson 3.3.3: Braces **Chapter 3.4: Member Properties** - Lesson 3.4.1: Name Rule - Lesson 3.4.2: Parent System - Lesson 3.4.3: Type Category - Lesson 3.4.4: Type - Lesson 3.4.5: Priority - Lesson 3.4.6: Continuity - Lesson 3.4.7: Cross Section - Lesson 3.4.8: Section Standard - Lesson 3.4.9: Section Type - Lesson 3.4.10: Section Name - Lesson 3.4.11: Material - Lesson 3.4.12: Grade - Lesson 3.4.13: Angle - Lesson 3.4.14: Cardinal Point **Chapter 3.5: Place Linear Member System** - Lesson 3.5.1: Place Member Ribbon Bar **Chapter 3.6: Frame Connections** - Lesson 3.6.1: Flush - Lesson 3.6.2: Seated - Lesson 3.6.3: Centerline - Lesson 3.6.4: Axis - Lesson 3.6.5: Corner Brace - Lesson 3.6.6: Surface - Lesson 3.6.7: Unsupported - Lesson 3.6.8: Manual or Automatic Rule-Based Selection **Chapter 3.7: Vertical Brace Connections** - Lesson 3.7.1: Rule-Based Offset **Chapter 3.8: Assembly Connections** - Lesson 3.8.1: Assembly Connection Ribbon Bar - Lesson 3.8.2: Base Plate - Lesson 3.8.3: Splice - Lesson 3.8.4: Fitted Assembly Connection - Lesson 3.8.5: Corner Gusset Plates **Chapter 3.9: Modifications** - Lesson 3.9.1: Attributes - Lesson 3.9.2: Generic Move Command - Lesson 3.9.3: Pin Point - Lesson 3.9.4: Point Along Tool - Lesson 3.9.5: Frame Connection **Chapter 3.10: Slabs** - Lesson 3.10.1: Coincident Plane - Lesson 3.10.2: Offset from Plane - Lesson 3.10.3: Angle from Plane - Lesson 3.10.4: Point/Normal Vector - Lesson 3.10.5: 3 Point Plane **Chapter 3.11: Sketch 2D** - Lesson 3.11.1: Basic Sketch 2D Overview **Chapter 3.12: Holes / Openings** - Lesson 3.12.1: Sketch Method - Lesson 3.12.2: Select an Opening from Catalog - Lesson 3.12.3: Draw (Sketch 2D) **Chapter 3.13: Footings** - Lesson 3.13.1: Footing Ribbon Bar - Lesson 3.13.2: Property Page - Lesson 3.13.3: Placement - Lesson 3.13.4: Modifications **Chapter 3.14: Equipment Foundations** - Lesson 3.14.1: Equipment Foundation Ribbon Bar - Lesson 3.14.2: Property Page - Lesson 3.14.3: Placement - Lesson 3.14.4: Modifications **Chapter 3.15: Stairs/Ladders** - Lesson 3.15.1: Settings - Lesson 3.15.2: Top Support - Lesson 3.15.3: Bottom Support - Lesson 3.15.4: Reference - Lesson 3.15.5: Position - Lesson 3.15.6: System - Lesson 3.15.7: Type - Lesson 3.15.8: Name - Lesson 3.15.9: Width - Lesson 3.15.10: Angle **Chapter 3.16: Handrails** - Lesson 3.16.1: Settings - Lesson 3.16.2: Properties - Lesson 3.16.3: Sketch Path - Lesson 3.16.4: Type - Lesson 3.16.5: Modifying Path **Chapter 17: Reports** - Lesson 3.17.1: Running Reports ### Module 4: SP3D Piping Training **Chapter 4.1: Overview** - Lesson 4.1.1: Pipeline - Lesson 4.1.2: Pipe Run - Lesson 4.1.3: Features - Lesson 4.1.4: Parts - Lesson 4.1.5: Port - Lesson 4.1.6: Path Leg - Lesson 4.1.7: Connections **Chapter 4.2: New Pipe Run** - Lesson 4.2.1: Define the Pipe Run Properties **Chapter 4.3: Route Pipe Command** - Lesson 4.3.1: Length Control Tool - Lesson 4.3.2: Route Pipe Run with Pin Point - Lesson 4.3.3: Angle Control Tool - Lesson 4.3.4: Pipe Run Smart Step Ribbon Bar **Chapter 4.4: Working Plane Control Tool** - Lesson 4.4.1: Plane Lock Options **Chapter 4.5: Turn Type Option** - Lesson 4.5.1: Default Turn Options - Lesson 4.5.2: Selecting a Turn Type **Chapter 4.6: Pipe Select Command** - Lesson 4.6.1: Select Filter Options **Chapter 4.7: Delete Command** - Lesson 4.7.1: Delete Pipeline - Lesson 4.7.2: Delete Pipe Run - Lesson 4.7.3: Delete Feature **Chapter 4.8: Routing From End Features or Nozzle** - Lesson 4.8.1: Connecting to End Feature - Lesson 4.8.2: Connecting to Nozzles **Chapter 4.9: Routing To or From a Straight Feature** - Lesson 4.9.1: Branch on Pipe Run - Lesson 4.9.2: Intersect to Branch **Chapter 4.10: Insert Component Command** - Lesson 4.10.1: Selecting a Component - Lesson 4.10.2: Reference Position - Lesson 4.10.3: Point Along Option - Lesson 4.10.4: Selecting Different Ports / Flip **Chapter 4.11: Edit Commands** - Lesson 4.11.1: Edit Straight Features - Lesson 4.11.2: Edit End Features - Lesson 4.11.3: Edit Run Change Features - Lesson 4.11.4: Editing Features **Chapter 4.12: Insert Split Command** - Lesson 4.12.1: Insert Split Ribbon Bar **Chapter 4.13: Edit Properties Command** - Lesson 4.13.1: Flow Direction - Lesson 4.13.2: Insulation - Lesson 4.13.3: Relation Tab **Chapter 4.14: Route Pipe Run Using the Offset Value** - Lesson 4.14.1: Setting Offset Parameters ### Module 5: SP3D Electrical Training **Chapter 5.1: Overview** - Lesson 5.1.1: Electrical System - Lesson 5.1.2: Cableways - Lesson 5.1.3: Cable Tray / Conduit - Lesson 5.1.4: Cables **Chapter 5.2: Route Cableway** - Lesson 5.2.1: Define Properties - Lesson 5.2.2: Using Pinpoint - Lesson 5.2.3: Using Smart Sketch - Lesson 5.2.4: From End Features - Lesson 5.2.5: To End Features - Lesson 5.2.6: To Straight Features - Lesson 5.2.7: Using Relative Tracking - Lesson 5.2.8: Using Spherical Coordinates - Lesson 5.2.9: Using Offset Option - Lesson 5.2.10: Routing from Ports - Lesson 5.2.11: Placing Transitions / Size Change **Chapter 5.3: Branches** - Lesson 5.3.1: Branch on a Run - Lesson 5.3.2: Intersect to Branch - Lesson 5.3.3: Branch Using Pinpoint **Chapter 5.4: Insert Component Command** - Lesson 5.4.1: Selecting a Component - Lesson 5.4.2: Reference Position - Lesson 5.4.3: Point Along Option - Lesson 5.4.4: Selecting Different Ports / Flip **Chapter 5.5: Routing Cableway – No Part Spec** - Lesson 5.5.1: Routing Cableway **Chapter 5.6: Insert Transition** - Lesson 5.6.1: Without Offset - Lesson 5.6.2: With Offset **Chapter 5.7: Edit Commands** - Lesson 5.7.1: Edit Straight Features - Lesson 5.7.2: Edit End Features - Lesson 5.7.3: Edit Cross Sections **Chapter 5.8: Routing Conduits** - Lesson 5.8.1: Conduit System - Lesson 5.8.2: Route Options **Chapter 5.9: Conduit Fittings** - Lesson 5.9.1: Insert Conduit Fittings **Chapter 5.10: Place Electrical Equipment** - Lesson 5.10.1: Placing Junction Box - Lesson 5.10.2: Placing Light Fixtures - Lesson 5.10.3: Creating MCC - Lesson 5.10.4: Placing Cable/Nozzle Ports **Chapter 5.11: Placing Ducts** - Lesson 5.11.1: Placing Ducts Using Cableway **Chapter 5.12: Insert Cables** - Lesson 5.12.1: Selecting Equipment - Lesson 5.12.2: Selecting Cables - Lesson 5.12.3: Defining Properties **Chapter 5.13: Define Cable Path** - Lesson 5.13.1: Selecting Cableways - Lesson 5.13.2: Defining Exit/Entry Points - Lesson 5.13.3: Placing Cable Markers **Chapter 5.14: Reports** - Lesson 5.14.1: Running Reports ### Module 6: SP3D HVAC Training **Chapter 6.1: Route Duct Command** - Lesson 6.1.1: Starting a Duct Run from a Point in Space - Lesson 6.1.2: Starting a Duct Run from an Existing Duct Run - Lesson 6.1.3: Starting a Duct Run from an Equipment HVAC Port **Chapter 6.2: Create Duct Run Dialog Box** - Lesson 6.2.1: Define the Duct Run Properties - Lesson 6.2.2: System - Lesson 6.2.3: Name - Lesson 6.2.4: Spec - Lesson 6.2.5: Required Flow Rate - Lesson 6.2.6: Insulation - Lesson 6.2.7: Maximum Design Velocity - Lesson 6.2.8: Maximum Pressure Loss **Chapter 6. 3: Insert Features** - Lesson 6.3.1: Insert Split Features - Lesson 6.3.2: Insert Component Features - Lesson 6.3.3: Insert Transition Features - Lesson 6.3.4: Insert Surface-Mounted Features **Chapter 6.4: HVAC Division** - Lesson 6.4.1: Select the End Feature ### Module 7: SP3D Isometric Drawings Training **Chapter 7.1: Extracting Pipeline Isometric Drawings** - Lesson 7.1.1: Creating Pipeline Isometric Drawings - Lesson 7.1.2: Extracting Pipeline Isometric Drawings **Chapter 7.2: Creating Spools** - Lesson 7.2.1: Creating Spools - Lesson 7.2.2: Extracting Spool Drawings **Chapter 7.3: Isometric Options Browser** - Lesson 7.3.1: Overview of Isometric Options - Lesson 7.3.2: Modifying Options **Chapter 7.4: Alias Options** - Lesson 7.4.1: Setting Alias Options **Chapter 7.5: Labels** - Lesson 7.5.1: Component Note (Type 1 Labels) - Lesson 7.5.2: End Connection (Connection Note and Nozzle Note Labels) - Lesson 7.5.3: Miscellaneous Specification Labels (Pipeline Header) - Lesson 7.5.4: Weld List Labels - Lesson 7.5.5: Drawing Frame (Title Block Labels) **Chapter 7.6: Title Block** - Lesson 7.6.1: Attribute Mapping - Lesson 7.6.2: Mapping Attributes to the Border **Chapter 7.7: Material List** - Lesson 7.7.1: Fixed Style (Style 1) - Lesson 7.7.2: Variable Style (Style 2) - Lesson 7.7.3: User-Defined Style (Style 3) - Lesson 7.7.4: Various Material List Options - Lesson 7.7.5: Material List Labels **Chapter 7.8: Weld List** - Lesson 7.8.1: Generating Weld List (wdf File) **Chapter 7.9: Definitions** - Lesson 7.9.1: Creating Definitions (ddf File) **Chapter 7.10: Creating New Isometric Style** - Lesson 7.10.1: Using Your Own Border Template - Lesson 7.10.2: Modifying Delivered Style XML File - Lesson 7.10.3: Bulk Loading the Style ### Module 8.1: SP3D Drawing and Reports Training **Chapter 8.1: Creating Drawings** - Lesson 8.1.1: Volume Drawings - Lesson 8.1.2: Snapshot Drawings - Lesson 8.1.3: Manual Drafting - Lesson 8.1.4: Graphic - Lesson 8.1.5: Annotation - Lesson 8.1.6: Labels - Lesson 8.1.7: Dimensions - Lesson 8.1.8: Title Blocks **Chapter 8.2: Running Reports** - Lesson 8.2.1: Generating Reports **Chapter 8.3: MTO Neutral File** - Lesson 8.3.1: Overview of MTO Neutral File - Lesson 8.3.2: Generating MTO Neutral File - Lesson 8.3.3: Customising MTO Outputs ## Hands-On Lab Activities **Stabiliser Unit Design Project** This project focuses on designing a complete stabiliser unit that aligns with industry standards and real-world scenarios. You will apply SP3D concepts to create 3D models, optimise workflows and enhance project efficiency while reinforcing the skills. ## SP3D Course Outcome and Career Opportunities Edoxi’s online SP3D training opens up significant career opportunities in the plant design and engineering sectors. These job roles offer structured career progression from entry-level positions to senior design responsibilities. With Edoxi’s SmartPlant 3D Training, you will; - Gain proficiency in creating and managing detailed plant designs using SmartPlant 3D software. - Enhanced skills in piping, structural modelling, and equipment integration, leading to improved efficiency in plant design projects. - Improve productivity and double the design process by reducing the use of systems required to perform design tasks. - Enable a restructured design process and master the ways to cut back on rework and time-intensive physical checking. - Understand how to reuse the developed data for future plant renovations and upgrades. - Gain expertise in integrating and balancing service-related products to create an optimal workflow according to the enterprise. ## Job Opportunities After Completing the SmartPlant 3D Course Piping Designer, Structural Designer, Electrical and Instrumentation Designer, Process Engineer, Project Coordinator/Manager, SP3D Administrator, SP3D Modeler, Plant Design Coordinator, Senior Drafter, Design Supervisor ## SP3D Training Options **Live Online Training** - 35-hour Online SP3D training - Real-time software instruction - Remote access to the SP3D environment - Flexible scheduling options - Interactive virtual sessions - Guided isometric drawing practice - Step-by-step project modelling support **Corporate Training** - Customisable 5-7 day programs - Tailored batch sizes - Industry-focused content delivery - Flexible timing arrangements - Complimentary food and refreshments - Training at client premises, Edoxi’s classroom or at a star hotel ## How to Get SmartPlant 3D Certification? Here’s a four-step guide to becoming a certified SmartPlant 3D professional. 1. Get Edoxi’s Online SmartPlant 3D training 2. Attend our expert-led SmartPlant 3D course. 3. Appear for the SP3D training Certification assessment. 4. Get Edoxi’s course completion Certification. ## Why Choose Edoxi for SmartPlant 3D Training? The following are some of the reasons why you should choose Edoxi for the Online SP3D Course; **Experienced Training Leadership** Our lead instructor brings 18 years of engineering expertise in detailed plant design. They have successfully trained over 500 professionals in advanced plant engineering applications. **Hands-on Project Learning** Edoxi’s Online SP3D training helps participants develop plant design expertise through stabiliser unit projects. Every session incorporates direct software practice in a configured SP3D environment. **Corporate Training Flexibility** Edoxi delivers customised training schedules with dedicated venues and refreshments. Organisations can choose between classroom and online formats for team development. **Complete Discipline Coverage** Edoxi’s Training integrates all plant engineering domains, including piping, structural, electrical, and instrumentation. This approach matches industry requirements for multi-disciplinary coordination. **Clear Career Development** Our SP3D course aligns with industry progression from junior designers to senior roles. The curriculum supports career advancement across major process plant and energy sectors. ## Frequently Asked Questions **Q: What is a SmartPlant 3D?** A: SmartPlant 3D is a full-suite software that provides 3D solutions and enables optimised designing and modelling of production/ manufacturing plants and pipeline distribution systems. **Q: What educational background do I need to join Edoxi’s Online SP3D course?** A: Edoxi’s SmartPlant 3D course is open to engineering graduates and diploma holders. Backgrounds in mechanical, civil, electrical engineering, or architecture are particularly relevant. **Q: Do I need industry experience to join Edoxi’s Online SP3D training?** A: No, you don't need any prior industry experience to join our SP3D training. We welcome both fresh graduates and experienced professionals looking to transition to plant design. **Q: Is prior CAD software knowledge necessary to join Edoxi’s Online SP3D Course?** A: While experience with 2D or 3D software is beneficial, it's not mandatory. Our structured curriculum supports learners at all skill levels. **Q: What are the Prerequisites for joining Edoxi’s Online SP3D Course?** A: There are no specific requirements needed to join Edoxi’s SmartPlant 3D Course. However, having; - A basic technical engineering background is beneficial.  - Prior experience with 2D or 3D design software would be helpful, but not necessary. **Q: What are the salary prospects for SP3D-certified professionals?** A: The average salary for an SP3D is expected to be around $80,000 to $110,000 per annum. However, the salary range can change according to job role, industry and work experience.  ## Trainer - Name: Gaurav Mittal - Designation: AVEVA E3D Trainer Gaurav Mittal is an accomplished professional with extensive expertise in AVEVA E3D, boasting over 10 years of training experience and a solid foundation in the industrial applications of SP3D. Throughout his career, he has effectively mentored more than 500 individuals, helping them master SP3D and plant design through a practical, hands-on teaching approach that equips participants with critical real-world skills to tackle various engineering challenges. With 18 years of detailed engineering experience in the oil and gas sector, Gaurav specializes in plant design and has worked on complex projects involving downstream processing, offshore platforms, and power plants. His profound technical knowledge is backed by an MBA in International Business and a Mechanical Engineering degree. As a certified AVEVA E3D User, Gaurav offers invaluable cross-platform insights, ensuring his training sessions are both informative and directly relevant to industry standards. ## Enrol in This Course - Course URL: https://www.edoxi.com/smartplant-3d-course - Phone: +971 43801666 - Email: info@edoxi.com