“Introducing the First-Ever Revit Architecture Project-Based Training in Qatar, brought to you by Future Point Management Consultancy at Al Muntazah , Qatar.

Our revolutionary course is meticulously designed to empower participants with comprehensive training in utilizing Revit, an industry-leading Building Information Modeling (BIM) software, to effectively create and manage building designs and documentation. Here’s an overview of the key components and objectives of this groundbreaking course:

  1. Comprehensive Introduction to Revit: Participants will receive an in-depth overview of Revit’s interface, tools, and functionalities, ensuring a solid foundation for effective usage.
  2. Understanding Building Information Modeling (BIM): Delve into the core concepts of BIM and learn how Revit enables the creation of intelligent 3D models that support the entire building lifecycle.
  3. Hands-on Project-Based Learning: Embrace a project-based approach where participants will engage in real-world architectural projects, applying Revit tools and techniques to create detailed building designs.
  4. Creating and Editing Architectural Elements: Learn how to efficiently create and manipulate architectural elements such as walls, floors, roofs, doors, and windows within the Revit environment.
  5. Effective Project Management: Master project management techniques in Revit, including setting up project settings, levels, grids, and organizing project elements for streamlined workflows.
  6. Advanced Visualization and Rendering: Explore advanced visualization and rendering capabilities in Revit to produce stunning visualizations and presentations that effectively communicate design intent.
  7. Collaboration and Coordination: Understand the importance of collaboration and coordination in architectural projects and learn how to effectively collaborate with team members through Revit’s collaboration features.
  8. Construction Documentation: Utilize Revit’s powerful documentation tools to generate accurate construction drawings, detail views, and annotations for comprehensive project documentation.
  9. Optimizing Workflow Efficiency: Discover time-saving tips, tricks, and best practices to optimize workflow efficiency and maximize productivity in Revit architecture projects.
  10. Project Review and Feedback: Receive personalized feedback and guidance from experienced instructors throughout the course, ensuring continuous improvement and skill development.

By the end of the course, participants will emerge as proficient Revit users, equipped with the knowledge, skills, and confidence to effectively utilize Revit for architectural design and documentation in real-world projects.

Don’t miss this unparalleled opportunity to revolutionize your architectural design skills with our Revit Architecture Project-Based Training at Future Point Management Consultancy. Enroll now and embark on a transformative learning journey!”

CHAPTER 1: BUILDING INFORMATION MODELLING INTRODUCTION

BIM – Introduction

  • Understanding the concept and significance of Building Information Modeling (BIM) in modern architectural practices.
  • Exploring the evolution of BIM and its impact on the AEC (Architecture, Engineering, and Construction) industry.
  • Discussing the benefits of adopting BIM workflows for project collaboration, coordination, and management.

BIM – 2D, 3D, 4D, 5D, 6D, 7D

  • Defining BIM dimensions and their respective applications in architectural design and construction.
  • Exploring the progression from traditional 2D drafting to multidimensional BIM modeling.
  • Understanding the additional dimensions of BIM, including time (4D), cost (5D), sustainability (6D), and facility management (7D).

Building Information Modelling for Architectural, Structure, and MEP Design

  • Examining how BIM methodologies are applied to architectural, structural, and MEP (Mechanical, Electrical, and Plumbing) design disciplines.
  • Understanding the role of BIM in facilitating integrated design coordination and clash detection among architectural, structural, and MEP systems.

Fundamental Working with Revit Elements and Families

  • Introducing key concepts of Revit elements, including walls, floors, roofs, doors, windows, and families.
  • Exploring methods for creating, modifying, and managing Revit elements to develop comprehensive building models.

Fundamental of Massing Studies

  • Understanding the fundamentals of massing studies and their importance in early-stage design exploration.
  • Utilizing Revit tools for creating conceptual massing models and exploring design options.

Fundamental of Creating / Modifying Topographic Surface

  • Learning techniques for generating and modifying topographic surfaces in Revit to accurately represent site conditions.
  • Exploring methods for importing site survey data and integrating it into the Revit environment.

Fundamental of the User Interface

  • Navigating the Revit user interface and understanding the organization of tools and commands.
  • Familiarizing oneself with the ribbon, properties palette, project browser, and other essential interface elements.

In Chapter 1, participants will gain a comprehensive understanding of Building Information Modeling (BIM) principles, Revit fundamentals, and essential concepts for architectural design. Through hands-on exercises and practical demonstrations, participants will develop foundational skills for effective BIM-based design and collaboration.

CHAPTER 2: REVIT BASIC

Revit – Basic (Project and Families)

  • Introduction to Revit software and its capabilities for project and family creation.
  • Understanding the distinction between project files and family files in Revit.
  • Exploring the basic concepts of Revit projects and families and their role in BIM workflows.

Starting a Project or Family

  • Step-by-step guide to starting a new project or family in Revit.
  • Understanding the different project and family templates available in Revit and selecting the appropriate template for specific project requirements.

Revit Templates MEP, ARCH, STR

  • Overview of the different Revit template categories, including MEP (Mechanical, Electrical, Plumbing), ARCH (Architecture), and STR (Structure).
  • Understanding the structure and content of each template and its suitability for various project types and disciplines.

Exploring the User Interface

  • Navigating the Revit user interface and understanding its components.
  • Familiarizing oneself with the ribbon, quick access toolbar, project browser, properties palette, and other essential interface elements.

Using Editing Tools

  • Introduction to basic editing tools in Revit for creating, modifying, and manipulating project elements.
  • Exploring tools such as move, copy, rotate, mirror, align, trim, and extend for efficient project editing.

In Chapter 2, participants will gain hands-on experience with Revit’s basic functionalities, including starting new projects, navigating the user interface, and using essential editing tools. By the end of this chapter, participants will be equipped with the foundational knowledge and skills needed to create and edit Revit projects effectively.

CHAPTER 3: BUILDING DESIGN AND HVAC SYSTEMS

Creating and Modifying Floors

  • Exploring methods for creating floor elements in Revit and modifying their properties.
  • Understanding floor types, thickness, materials, and finishes.

Creating and Modifying Plan

  • Utilizing Revit tools to create and modify architectural plans, including floor plans, ceiling plans, and roof plans.
  • Exploring techniques for adjusting plan views and displaying relevant information.

Working with Ceilings

  • Adding ceiling elements to architectural models and customizing their properties.
  • Understanding ceiling types, heights, materials, and finishes.

Adding Architectural, Structural Columns

  • Inserting architectural and structural columns into building models and adjusting their properties.
  • Exploring different column types, dimensions, and placement options.

Understanding HVAC Systems

  • Introduction to Heating, Ventilation, and Air Conditioning (HVAC) systems and their role in building design.
  • Understanding the components and principles of HVAC systems, including air handling units, ductwork, and diffusers.

Generating HVAC System Layouts

  • Using Revit tools to create HVAC system layouts, including ductwork, piping, and equipment placement.
  • Understanding HVAC system design considerations, such as airflow, duct sizing, and equipment selection.

Adding and Modifying Doors and Windows

  • Inserting doors and windows into architectural models and customizing their properties.
  • Exploring different door and window types, styles, and configurations.

Adding HVAC Fixtures

  • Incorporating HVAC fixtures, such as diffusers, grilles, registers, and thermostats, into building models.
  • Understanding the role of HVAC fixtures in providing comfort and air distribution within spaces.

In Chapter 3, participants will learn essential techniques for building design and HVAC system integration using Revit. Through hands-on exercises and practical demonstrations, participants will develop proficiency in creating building elements, generating HVAC system layouts, and optimizing building performance.

CHAPTER 4: REVIT FAMILIES – WORKING WITH FAMILIES

Creating / Editing Family Component

  • Understanding the process of creating and editing family components in Revit.
  • Exploring the Family Editor interface and its tools for family creation and modification.

Understanding Family Editor

  • Navigating the Family Editor environment and understanding its key features and functionalities.
  • Learning essential techniques for manipulating family geometry, parameters, and constraints.

Adding and Modifying Families

  • Adding pre-built families to Revit projects and customizing their properties as needed.
  • Exploring methods for modifying existing families to meet specific project requirements.

Revit MEP families

  • Introduction to Revit families specific to MEP (Mechanical, Electrical, Plumbing) disciplines.
  • Understanding the role of MEP families in creating detailed MEP system layouts and components.

Revit Architecture families

  • Exploring Revit families tailored for architectural design and documentation purposes.
  • Understanding the range of architectural families available in Revit and their applications in building modeling.

CHAPTER 5: REVIT FAMILIES – WORKING WITH FAMILIES

Working with Component Families

  • Utilizing component families to add detailed building elements and fixtures to Revit projects.
  • Understanding the properties and parameters of component families and their customization options.

Creating and Using In-place Families

  • Creating custom in-place families directly within Revit projects for unique design requirements.
  • Exploring techniques for using and modifying in-place families to accommodate project-specific needs.

Creating and Modifying Parametric Families

  • Learning the principles of parametric design and applying them to create parametric families in Revit.
  • Understanding how parameters drive the geometry and behavior of parametric families.

Creating Nested Families

  • Creating nested families within Revit to encapsulate complex geometry and relationships.
  • Understanding the benefits of using nested families for organizing and managing project content.

Working with Component Groups

  • Utilizing component groups to organize and manage families within Revit projects.
  • Exploring methods for creating, editing, and manipulating component groups for efficient project organization.

CHAPTER 6: BASIC OF BUILDING AND WORKING WITH PLUMBING SYSTEM

Creating Openings

  • Adding openings, such as doors and windows, to building models to facilitate circulation and access.
  • Understanding the process of placing and modifying openings in Revit projects.

Adding Stairs, Railings, and Ramps

  • Incorporating stairs, railings, and ramps into building designs to provide vertical circulation.
  • Exploring the tools and techniques for creating and customizing stairs, railings, and ramps in Revit.

Understanding Plumbing Systems

  • Introduction to plumbing systems and their components in building design.
  • Understanding the principles of plumbing layout and design in Revit projects.

Working with Plumbing System

  • Utilizing Revit tools to create and modify plumbing systems, including piping, fixtures, and fittings.
  • Exploring methods for designing and documenting plumbing layouts in Revit projects.

CHAPTER 7: BASIC OF BUILDING AND CREATING AN ELECTRICAL SYSTEM

Creating / Editing Curtain Walls

  • Adding curtain walls to building facades to enhance aesthetics and functionality.
  • Understanding the properties and parameters of curtain walls and their customization options.

Adding and Modifying Roofs

  • Incorporating roofs into building designs to provide weather protection and architectural character.
  • Exploring techniques for creating and modifying roofs of different types and shapes in Revit.

Understanding Electrical Systems

  • Introduction to electrical systems and their components in building design.
  • Understanding the principles of electrical layout and design in Revit projects.

Working with Electrical System

  • Utilizing Revit tools to create and modify electrical systems, including lighting fixtures, switches, and outlets.
  • Exploring methods for designing and documenting electrical layouts in Revit projects.

CHAPTER 8: BASIC OF BUILDING AND CREATING A FIRE PROTECTION SYSTEM

Adding Building Components

  • Adding structural and architectural components to building models to enhance realism and accuracy.
  • Understanding the process of placing and modifying building components in Revit projects.

Creating / Modifying Topographic Surface

  • Generating and modifying topographic surfaces in Revit to accurately represent site conditions.
  • Understanding the tools and techniques for creating and editing topographic surfaces.

Understanding Fire Protection Systems

  • Introduction to fire protection systems and their components in building design.
  • Understanding the principles of fire protection layout and design in Revit projects.

Designing The Fire Protection System

  • Utilizing Revit tools to design and document fire protection systems, including sprinklers, alarms, and fire extinguishers.
  • Exploring methods for coordinating fire protection layouts with architectural and structural elements in Revit projects.