Mastering Autodesk Revit Architecture Autodesk Official Press - PDF Drive.
The Exploring Autodesk Revit MEP textbook explains the concepts and principles of Revit MEP through practical examples, tutorials, and exercises. This enables the users to harness the power of BIM with Autodesk Revit MEP for their specific use. In this textbook, the author explains in details the procedure of evaluating HVAC cooling and heating loads and the usage of tools . Revit Mep free download, and many more programs. X. Autodesk Revit MEP. Free to try. Deliver 3D models and support for mechanical, electrical, and plumbing (MEP) engineers. Nov 14, · Download Autodesk Revit software free versions from the original source. MEPWORK helps MEP engineer and provides a link for downloading all versions of Revit software free download with a direct download link. chose the year version, operating system and language and then click install, you will get an original version of Revit software. You can .
Autodesk Revit Architecture / Structure / MEP SP2 x64.
In this textbook, the author explains in details the procedure of evaluating HVAC cooling and heating loads and the usage of tools required for designing HVAC, electrical, and plumbing design. In addition, in this textbook, you will learn tools and concepts for creating families and process to document the final drawings. In this textbook, special emphasis has been laid on the concepts of space modeling and tools to create systems for all disciplines MEP.
Each concept in this textbook is explained using the detailed description and relevant graphical examples and illustrations.
The accompanying tutorials and exercises, which relate to the real world projects, help you understand the usage and abilities of the tools available in Autodesk Revit MEP. Along with the main text, the chapters have been punctuated with tips and notes to make the concepts clear, thereby enabling you to create your own innovative projects. The main features of this textbook are as follows:.
The author has adopted the project-based approach and the learn-by-doing theme throughout the textbook. This approach guides the users through the process of creating the designs given in the tutorials. The author has used real-world building designs and architectural examples as projects in this textbook so that the users can correlate them to the real-time designs.
Additional information related to various topics is provided to the users in the form of tips and notes. The first page of every chapter summarizes the topics that are covered in that chapter. The chapters ends with a Self-Evaluation Test so that the users can assess their knowledge of the chapter. The answers to the Self-Evaluation Test are given at the end of the chapter.
Also, the Review Questions and Exercises are given at the end of chapter and they can be used by the instructors as test Questions and exercises. The text in this book is heavily illustrated with about line diagrams and screen capture images. Formatting Conventions Used in the Textbook. Please refer to the following list for the formatting conventions used in this textbook.
Example: The Options dialog box, the Wire drop-down in the Electrical panel of the Systems tab, the Name edit box in the Name dialog box, the Chain check box in the Options and so on. Application Menu: New. Naming Conventions Used in the Textbook. Duct tool, Air Terminal tool, Isolated tool. Load Family tool, Duct tool, Wall tool. Plumbing Fixture tool, tool. Figure in the ribbon. The item in a dialog box that has a 3d shape like a button is termed as For example, OK button, Cancel button, Apply button, and so on.
If the item in a ribbon is used to exit a tool or a mode, it is also termed as button. WhatsApp Messenger. Talking Tom Cat. Clash of Clans. Subway Surfers. TubeMate 3. Google Play. Windows Windows. Most Popular. New Releases. Desktop Enhancements. Networking Software. Software Coupons. This practice will quickly update multiple components without selecting and editing the components in the drawing. Generating HVAC system layouts.
After you create an HVAC system, you will add different components to it and use automatic layout tools to review possible routing solutions. The automatic layout tools will provide you with multiple layout solutions that you can explore to suit your design requirement. If you do not find the required set of connections, you can manually modify the layout path solutions.
For example, you can create duct layouts to connect air system components. Revit MEP will provide you with tools to generate the layout of the ductwork automatically when components are added to the HVAC systems. While creating a system layout, only those components will be considered that are connected to the same system and are displayed in the plan view. If you select a component in 3D, section, or elevation view, all components that are connected to the same system, even if they reside on the multiple levels, will be considered for the layout.
This is important when you create a layout for components that are connected to the same system but are located on different levels. While generating layouts using the automatic layout tool, you will notice that each layout solution consists of blue and green layout lines. Blue lines represent the main duct layout, and green lines represent the branches duct layout.
You can generate three types of routing solutions for a layout: Network, Perimeter, and Intersection. The table below describes the solution types. Solution Type. Provides up to six solutions, each consisting of a main segment with branches at 90 degrees from the main segment. Provides five solutions that wrap the main segment around the perimeter of the components.
Provides up to eight solutions, each consisting of a main segment routed over the connectors of the components. Each solution consists of branches extending perpendicular from the main segment down to the components.
To create an auto layout for the HVAC system, select the mechanical equipment and the air terminals that you want to connect; the Modify Multi-Select contextual tab will be displayed, as shown in Figure In this dialog box, ensure that the Supply Air option is selected in the System type drop-down list and then enter the text Supply System in the System name edit box.
Choose the dialog box will be closed and the Select Connector dialog box will be displayed. Keep the default option in the dialog box and choose a blue dotted rectangle will be displayed around the system in the drawing and the Modify Duct Systems contextual tab will be displayed.
You can use the options in this tab to edit the system such as adding or removing any component. Next, to generate the layout, select any of the air terminal components in the system that you have created; the Modify Air Terminals tab will be displayed. In this tab, choose the Generate Layout tool from the Layout panel; the Generate Layout tab will be displayed, as shown in Figure Figure The options in the Generate Layout tab. In the Options Bar of this tab, choose the Settings button; the Duct Conversion Settings dialog box will be displayed, as shown in Figure Conversion box.
In the left pane of the dialog box, ensure that the Main option is selected. As a result, the right pane of the dialog box will display various options related to the Main option. In the right pane, click in the Value field corresponding to the Duct Type settings and select an option for the duct type of the main duct from the drop-down list displayed. Next, click in the Value field corresponding to the Offset settings and enter a value to specify the vertical offset for the main duct.
Next, in the left pane of the Duct Conversion Settings dialog box, select the Branch option; the various options related to the Branch option will be displayed in the right pane, as shown in Figure Figure options for branch ducts in Conversion box.
In the right pane, click in the Value field corresponding to the Duct Type setting and select an option from the drop-down list displayed to specify the type of duct for the branch duct. Next, in the right pane of the Duct Conversion Settings dialog box, specify the values for the Flex Duct and the Maximum Flex Duct Length settings to specify the vertical offset value, type of the flex duct, and maximum length of the flex duct, respectively, to be used for branch duct in the layout.
Next, choose the Duct Conversion Settings dialog box will be closed. In the Options select an option from the Solution Type drop-down list. For example, you can select the Network option from the drop-down list. On selecting this option, a default solution for network will be displayed in the drawing view. In the Options choose the Next Solution button to preview the next solution of the layout in the drawing view. Figure displays a network solution for an air supply system. In the Generate Layout tab, choose the Finish Layout tool; the layout will be generated.
Figure shows a three dimensional view of an HVAC system. Figure plan displaying a network solution of the HVAC system layout. Figure view of an HVAC system layout. Creating Ducts and Duct Fittings.
In an HVAC system, the ducts are used to supply and remove air from a space. The airflow inside the ducts includes supply air, return air, and exhaust air. In Revit MEP, the ducts are created using the automatic connection snaps.
When you place the duct segments in a project, Revit MEP automatically connects two segments of the ducts with appropriate duct fittings. This method saves your time as there will be no need to join or trim elements. Creating Ducts. To create a duct segment in a drawing, open the desired view from the Project Browser and then choose the Duct tool from the HVAC panel in the Systems tab; the Modify Place Duct contextual tab will be displayed, as shown in Figure In the Placement Tools panel of this tab, the Automatically Connect button is chosen by default.
As a result, the startpoint and the endpoint of the duct will snap the connector of the equipment or component and connect automatically to it. In case you want the duct to inherit the elevation of the component to which it will be snapped, you can choose the Inherit Elevation button in this panel. Similarly, you can choose the Inherit Elevation button to enable the duct to inherit the size of the equipment to which it will be snapped.
In the Options you can enter a value in the Width and Height edit boxes to specify the width and depth of the duct, respectively. By default, the value is set to in both the edit boxes. Next, in the Offset edit box, enter a vertical offset distance of the duct. Next, choose the Apply button to apply the settings specified in the Options Bar to the drawing.
In the Properties palette, as shown in Figure , you can select an option from the Type Selector drop-down list to specify a type of the duct to be placed. Under the Constraints head in the Properties palette, click in the value field corresponding to the Horizontal Justification parameter and select an option from the drop-down list to specify the horizontal justification of the duct, when you place it in the plan view.
Figure Different instance properties of the duct. By default, the Center option will be selected. The other options that you can select from the drop-down list are: Left and You can click in the value field corresponding to the Vertical Justification parameter and select an option from the drop-down list displayed to specify the vertical justification of the duct.
The vertical justification will be used in measuring the vertical offset distance of the duct. Under the Constraints head, click in the value field corresponding to the Reference Level parameter and select a level to specify the reference level of the duct.
This parameter will be used as a reference of the vertical offset distance. Next, you can click in the value field of the Offset parameter and enter a value in it to specify the offset distance of the duct with reference to the level specified for the Reference Level parameter. Under the Mechanical head of the Properties palette, click in the value field corresponding to the System Type parameter and select an option from the drop-down list to specify the type of system specified for the duct.
By default, the Supply Air option is selected. In the drop-down list, you can also select the Exhaust Air or Return Air option. Under the Mechanical head, you can select the check box corresponding to the Size Lock parameter to lock the size of the duct for editing.
After specifying various options in the Properties palette, click. Figure appearence of the snap point at the connector. You can also snap to the connector point of an existing equipment to automatically connect to it. To do so, place the cursor at the connector point of the equipment; a snap will appear, as shown in Figure Now, click at the snapped point and drag the cursor toward the desired direction; a preview of the duct with specified cross-section and justification will appear along with the cursor, as shown in Figure Now, click on the desired location to specify the end point of the duct segment.
On clicking at the desired location, a duct segment will be created. You can now click on more locations to define other duct segments. After defining the duct segments, choose the Modify button from the Select panel to exit the tool. Figures and show the elevation and three dimensional views, respectively, of a ductwork in an HVAC system.
Figure appearance of a duct segment along with the cursor. Figure elevation view of a duct system. Figure dimensional view of a duct system. General instructions for downloading tutorial files:. Now, save and extract the downloaded zip file at the following location:. The default unit system used in the tutorials is Imperial. Tutorial 1 Placing Air Terminals. In this tutorial, you will place the air terminals in the ceiling of the rooms.
Also, you will create new views, modify air terminal parameters, and place air terminals into the ceiling plan. Expected time: 45 min.
The following steps are required to complete this tutorial:. Modify the ceiling plan. Add the supply air terminal. MEP Export In for Revit MEP Exporter for Revit is In for Revit is The Revit team has Structure, and MEP. STL is Autodesk provides a variety of online materials that help you to learn and use Autodesk Revit Architecture software or to develop complementary products.