Content
- Chapter 1: What’s New?
- Chapter 2: Building Information Modeling
- Chapter 3 Licensing
- Chapter 4: User Interface
- Chapter 5: Creating a Project
- Chapter 6: Using information from other sources
- Chapter 7: Opening Revit Files
- Chapter 8: Saving Revit Files
- Chapter 9: Levels and Grids
- Chapter 10: Project Location and Orientation.
- Chapter 11: Conceptual Design Environment
- Chapter 12: Revit MEP Essentials
- Chapter 13: Duct Systems
- Chapter 14: Piping Systems
- Chapter 15: Plumbing Systems
- Chapter 16: Fire Protection Systems
- Chapter 17: Electrical Systems
- Chapter 18: Walls
- Chapter 19: Doors
- Chapter 20 Windows
- Chapter 21 Components
- Chapter 22—Architectural Columns
- Chapter 23: Roofs
- Chapter 24: Ceilings
- Chapter 25: Floors
- Chapter 26. Openings
- Chapter 27 Model Text
- Chapter 28: Modellines
- Chapter 29 Compound Structure
- Chapter 30: Sloped surfaces
- Chapter 31: Uniformat Assembly Codes
- Chapter 32: Stairs
- Chapter 33: Ramps
- Chapter 34: Railings.
- Chapter 35. Curtain Elements
- Chapter 36: Rooms and Areas
- Chapter 37: Revit Families
- Chapter 38: Design Options
- Chapter 39: Structural Modeling
- Chapter 40: 2D Views
- Chapter 41: 3D Views
- Chapter 42 Legend Views
- Chapter 43 Schedules
- Chapter 44: Visibility and Graphic Display in Project Views
- Chapter 45: Use and Manage Views
- Chapter 46: Project Phasing
- Chapter 47 Annotating
- Chapter 48 Detailing
- Chapter 49: Preparing Construction Documents
- Chapter 50 Rendering
- Chapter 51 Walkthroughs
- Chapter 52 Share the design!
- Chapter 53 Linked Models
- Chapter 54: Working in a Team
- Chapter 55: Multi-Discipline Coordination
- Chapter 56: Interference Checking
- Chapter 57: Shared Positioning
- Chapter 58: Determining Heating and Cooling Loads
- Chapter 59: Massing Studies
- Chapter 60: Solar Studies
- Chapter 61: Display Styles for Analysis Add-In Applications
- Chapter 62 Sketching
- Chapter 63: Editing Elements
- Chapter 64: Workplanes
- Chapter 65 Reference Planes
- Chapter 66 Datum Extents and Visibility
- Chapter 67 Constraints
- Chapter 68 Parameters
- Chapter 70 Keyboard Shortcuts
- Chapter 71. Project Settings
- Chapter 72: Revit Options
- Chapter 73 Project Templates
- Chapter 74: Transferring Project Standards
- Chapter 75 View Templates
- Chapter 76: Creating Macros with Revit VSTA
- Chapter 77: Memory Use
- Chapter 78. Best Practices
- Chapter 79 Troubleshoot
- Chapter 80: Electrical Sizing and Calculation Methods
- Chapter 81: Duct Sizing and Calculation Methods
- Chapter 82: Pipe Sizing and Calculation Methods
- Chapter 83: Hydronic Pipe Sizing and Calculation Methods.
- Chapter 84: Energy Analysis Building & Space Type Imperial Data
- Chapter 85: Heat and Cooling Calculation Methods
- Chapter 86: GBXML Schema Support
- Glossary
- Index
Preface
What is parliamentary reform?
The process of updating the construction site information system serves as a design and support system for the designs, drawings, and plans necessary for a successful construction project. Building Information Modeling (BIM) provides design, scale, volume, and dimension information when you need it.
In Update mode, all drawing pages, 2D and 3D views, and programs display information in the same database format. As you work through design and planning concepts, MEP Update collects information about the construction project and integrates this information into all other project specifications. Revision Engine is a transformation engine that automatically integrates changes made anywhere in models, sheets, plans, components, and programs.
What does parametric mean?
Revit MEP provides editing options that allow you to adjust the parametric relationship between all model elements. The software automatically establishes these relationships, or you can establish them as you work.
Parameters in mathematics and CAD refer to numbers or properties that define such relationships, making the software function parametric. This capability is a key link to the productivity benefits of Revit MEP: change anything, anywhere in the project, at any time, and Revit MEP integrates those changes throughout the project.
Below are examples of these relationships:
The outer part of the door frame has a fixed dimension measured from the plumb line on the hinge side. If you move a partition, the family retains its connection to it.
The top level evenly divides Windows and drivers. Changing the length maintains the equilibrium relationship. In this case, the parameters are numbers, not numbers.
The rear wall attaches the floor or ceiling edge, ensuring its attachment even when the front wall moves. In this case, the criterion is cooperation or integration. How does a theme update ensure that everything remains current? An important feature of data visualization architecture is the ability to adapt to change and maintain consistency over time. You don’t have to participate in updating images or links. When you change an object, MEP Update automatically determines the impact of the change and reflects those changes on all affected objects.
Update: MEP uses two main concepts that make it very robust and easy to use. The first is to capture the relationship while working creatively. Second, it serves as a means to foster constructive change. The result of these ideas is software that works for you without requiring you to enter unnecessary information for your design. Understanding Reform Terms Most of the terms used to describe objects in Revit MEP are standard, industry-standard language that most engineers are familiar with. However, some terms are specific to AP reform. Understanding the following terms is important to the software.
In Revit MEP, a project serves as a database that houses your data, specifically an architectural model. The project file contains all design information, from geometry to construction information. This information encompasses components used for designing models, viewing projects, and creating design plans. MEP Update allows you to easily change the design using a single project file and make the changes visible in all relevant components (plan view, section, floor plan, etc.). Having a single file to protect also makes project management easier.
Levels are infinite horizontal planes that define the level of objects such as roofs, floors, and ceilings. You often use a level to define the vertical height or floor of a building. You establish a framework for each known story or other essential building requirement, such as the first floor, the top of the wall, or the bottom of the foundation. You need to be nearby or look up to adjust the level.
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