What is BIM? Autodesk BIM is an intelligent model-based process that helps owners and service providers achieve business results by enabling more accurate, accessible, and actionable insight throughout project execution and lifecycle. BIM changes the way companies work both internally and externally. Projects have become more and more complex, requiring firms to manage and share immense amounts of data across diverse and distributed teams. By enabling greater insight into the project at any point in its lifecycle, BIM helps AEC service providers to improve accuracy, efficiency, and productivity, resulting in time and cost savings. The significant value-added benefits that BIM-ready firms can provide include: faster project approvals, more predictable outcomes, sustainable design and analysis services, and improved collaboration and information sharing for integrated project delivery strategies.
BIM Diploma content ( included courses) : Training course Course Levels Duration Outputs Revit Mep 2 level 50hrs Electromechanical design and modeling Autodesk navisworks 1 level 24 hrs Clash detection Our customers use Autodesk BIM solutions to achieve better business results. BIM helps improve the way work gets done by providing more insight and greater predictability Revit MEP Autodesk building information modeling (BIM) software helps mechanical, electrical, and plumbing (MEP) engineers keep design data coordinated, minimize errors, and experience enhanced collaboration with engineering and architecture teams. Autodesk Navisworks Navisworks helps architecture, MEP, structure engineers, and construction professionals holistically review integrated models and data with stakeholders to gain better control over project outcomes. Integration, analysis, and communication tools help teams coordinate disciplines, resolve conflicts, and planprojects before construction.
Autodesk building design suite ARCHITECTURAL, MEP AND STRUCTURAL ENGINEERING
Autodesk Revit Autodesk Revit software* is specifically built for Building Information Modeling (BIM), empowering design and construction professionals to bring ideas from concept to construction with a coordinated and consistent model-based approach. Autodesk Revit is a single application that includes features for architectural design, MEP and structural engineering and construction. ARCHITECTURAL, MEP AND STRUCTURAL ENGINEERING
RevitMEP: Autodesk Revit software provides mechanical, electrical, and plumbing (MEP) engineers with tools to design even the most complex building systems. Revit supports Building Information Modeling (BIM), to help drive accurate design, analysis, and documentation of efficient building systems from concept through construction. mechanical & electrical engineer ( HVAC, PLUMING, ELECTRICAL
Revit MEP Training course 1. Revit mep basic course 2. Revit mep Advanced course Training course : course Duration hrs / days Revit MEP basic course 25 Revit MEP Advanced course 25 Training materials : Autodesk official training materials Prerequisites : There are no required prerequisites for the Essential course. Attendance : mechanical & electrical engineers & drafters.
1. Revit MEPbasic course content: Course Objectives : The primary objective of this course is to teach students the concept of building information modeling and introduce the tools for parametric engineering design and documentation using Revit MEP. After completing this course, students will be able to: Understand Autodesk Revit MEP, its interface, including viewing, drawing, and editing commands Work with linked architectural files Create and modify views Understand Revit MEP systems in general Create spaces and zones. Analyze heating and cooling loads Work with HVAC module to add air terminals, mechanical equipment, and create HVAC systems Work with the Piping module to add mechanical equipment as well as creating hydronic piping systems Work with fire protection systems Work with fixtures, piping systems and analysis tools in the Plumbing module Work with components, circuits, cable tray, and conduits in the Electrical module Create and annotate construction documents Add tags and create schedules Detail in Revit MEP
Course outline : Day 1 Building Information Modeling (BIM). Exploring the User Interface Starting a Project Viewing commands Overview and Basic Drawing Tools Linking Revit Models Copying and Monitoring Linked Files Setting up Levels Day 2 Duplicating Views Adding Callout Views Setting the View Display Creating Elevations Creating Sections Revit MEP Systems settings Working with Components Visiblity and graphics Spaces and Zones Creating Color Schemes
Day 3 Analyzing the Heating and Cooling Loads Working With Ceilings V iew Range Library HVAC Systems Duct Systems Hydronic Piping Systems Fire Protection Systems Day 4 About Electrical Systems Placing Electrical Components Creating Electrical Circuits Cable Trays and Conduit Electrical Panel Schedules Day 5 About lighting Systems Placing lighting fixtures Rendering about low current systems Plumbing Systems Piping for Plumbing Systems Day 6 Construction Documents Adding Detail Lines and Symbols Creating Legends Tags and Schedules Detailing in Revit MEP Importing and Exporting
2.Revit MEP advanced course : - Course Objectives : The primary objective of this course is to teach students the powerful tools and advanced techniques for creating complex designs, creating advanced systems, creating and customizing objects. Course outline : Day 1 Work sharing Collaboration and coordination Worksets Managing Revision. Walkthroughs 3d view annotation Day 2 Shared parameters Parameters Create project templates Energy Analysis Transfer project standards Day 3 Creating MEP Families Editing and advanced families creation Autodesk seek Day 5 Sketching solid extrusions and voids Aligning and locking geometry Constraints object styles Material quantity take off Sheet list Day 6 Duct Pressure Loss Reports Pipe Pressure Loss Reports Creating legends Fabrication parts Materials Addins and plugins
Autodesk NavisWorks Course :- Course Description The Autodesk Navisworks training course instructs students in best approaches to combine 3D geometry from cross disciplines into one scene to enable effective model reviews. Through a hands-on, practiceintensive curriculum, students acquire the knowledge needed to review and markup the model, use TimeLiner, Animator, Scripter, and Presenter, as well as the Clash Detective tools within Autodesk Navisworks. Using the functionality of the Autodesk Navisworks Review, Simulate, and Manage features, students learn how to open, review, and run object-interference checks on 3D models. Students also learn how to link to task-scheduling files and create 4D construction simulations. Using the Animator and Scripter tools, students create interactive animations. In addition, students learn how the Presenter tools can help them create photorealistic images and animations. Training Objectives After completing this course, students will be able to: Describe the main features and functionality of Autodesk Navisworks. Open and append 3D files of different formats and save in the Autodesk Navisworks format. Create links to object properties files and scheduling files in external databases. Perform visual project model reviews using the built-in review and reporting tools. Create construction simulations of a project model to check the validity of construction schedules. Use Animator and Scripter to create interactive animations for presentations and demonstrations. Add true-to-life materials, and lighting and backgrounds to project models, to create photorealistic output. Perform interference detection tests between 3D files of different disciplines to check integrity of the design.
1. Autodesk Navisworks Training course course Duration Days hrs Autodesk Navisworks training course 24 6 Training materials : Autodesk official training materials Prerequisites : Completion of Any Revit course or knowledge of 3D design and task-scheduling software Attendance :(mechanical, electrical, structural, architecture ) engineers & Drafters. Certification : autodesk course completion certification.
Training Objectives After completing this course, students will be able to: Describe the main features and functionality of Autodesk Navisworks. Open and append 3D files of different formats and save in the Autodesk Navisworks format. Create links to object properties files and scheduling files in external databases. Perform visual project model reviews using the built-in review and reporting tools. Create construction simulations of a project model to check the validity of construction schedules. Use Animator and Scripter to create interactive animations for presentations and demonstrations. Add true-to-life materials, and lighting and backgrounds to project models, to create photorealistic output. Perform interference detection tests between 3D files of different disciplines to check integrity of the design Course outline: Day 1 Getting Started NavisWorks Interface 3D Model Review Selection Tree & Selecting Objects Hiding Objects & Overriding Materials Object Properties Measuring & Moving Objects Selection & Search Sets Viewpoints Comments & Redlining
Day 2 Sectioning Links Comparing Models Switchback Navisworks Real-Time Rendering Core Concepts Navigating The Model Day 3 Appending/Merging Files Animation Configuring & Defining a Simulation Timeliner Simulation Core Concepts Clash Detective Creating Tasks Gantt View Import Tasks from External Project File Simulation Export Day 4 Scripter Creating & Managing Scripts Events Creating & Configuring Actions Presenter Basics Materials Lighting Backgrounds Rendering Ground Planes Exporting Images Exporting Animations
Day 5 Presenter Advanced Features Editing & Managing Materials Advanced Material Editing Individual Light Effects Light Scattering Image-Based Lighting Backgrounds & Reflections Custom Rendering Effects Custom Environments RPC Day 6 Clash Detective Setting Clash Rules Clash Results Clash Test Reporting Audit Checks Create & Save Batches of Clash Tests Export & Import Clash Tests Custom Clash Tests Laser Scan Data Clashing Holding & Releasing Objects Switchback Time-Based Clashing Quantification Integrating 2D Takeoffs Using the 2D Markup Tools Modifying Formulas