Now that we've established our Pressure Network catalogs and Parts Lists, it's time to put these tools into practice by creating an actual Pressure Network. This process forms the backbone of water distribution design in Civil 3D, allowing engineers to model complex distribution systems with precision and efficiency.

Begin by navigating to the Home tab in the Ribbon bar, then locate the Pipe Network drop-down menu. Within this menu, you'll find several Pressure Network creation methods, each designed for different project scenarios and data sources.

For this tutorial, we'll focus on the Pressure Network Creation Tools—the most versatile and commonly used method in professional practice. However, it's worth understanding your other options. The "Create Pressure Network from Object" function mirrors similar functionality found throughout Civil 3D, allowing you to transform existing polylines or compatible objects into pressure networks. This approach proves invaluable when working with preliminary sketches or imported survey data. Similarly, the "Create Pressure Network from Industry Model" option enables seamless integration with industry-standard models, streamlining workflows when collaborating across different software platforms. Civil 3D's flexibility in accepting various input formats makes it a powerful hub for multi-source design integration.

Let's proceed with the Pressure Network Creation Tools by clicking on this option to launch the Create Pressure Pipe Network dialog window.

The first step involves establishing your network's identity and parameters. Name your Pressure Network strategically—we'll be working on our Dev Main alignment for this water distribution system, distinguishing it from our drainage work completed on Dev Branch. This naming convention helps maintain clear project organization, especially critical in complex developments with multiple utility systems.

Next, configure your pipe run naming convention. While "Pipe Run – Next Counter" serves as a functional default, consider your project's documentation standards. Many firms prefer descriptive naming that reflects the pipe's function or location within the broader system—modifications can always be made later as your design evolves.

Parts List selection requires careful consideration of your project requirements. Since we're designing a water distribution system, select the Water Parts List we previously configured. This ensures all available components align with water utility standards and specifications. The initial pipe size selection—in our case, a 12-inch push-on ductile iron pipe—serves as your starting point, though Civil 3D's flexibility allows for easy modification as hydraulic calculations and design refinements dictate different sizing requirements.

Reference Surface configuration represents a critical design decision that impacts your entire network's behavior. By selecting our Finished Construction surface as the primary reference, we ensure the pressure network adapts intelligently to our proposed grading design. The secondary reference capability provides a safety net: should your network extend beyond the design surface boundaries, Civil 3D automatically references the existing terrain surface to maintain realistic pipe positioning.

Enable the "Create Surface Profile to Follow" option to ensure your network maintains proper relationship with the selected surface throughout the design process. Set your cover depth to five feet—a standard specification for water mains that provides adequate protection from surface loads and frost penetration while remaining accessible for maintenance. Unlike gravity systems where slope considerations dominate, pressure networks offer greater flexibility in vertical alignment since water flow relies on system pressure rather than gravitational fall.

For this initial setup, we'll skip Reference Alignment and Label Style assignments, focusing on core network creation. Click OK to proceed.

Civil 3D responds by activating the specialized Pressure Network contextual Ribbon, your command center for all pressure network operations. This interface consolidates the tools and information needed for efficient network design and modification.

The Network Properties section provides comprehensive access to your system's configuration. Clicking this option reveals the Dev Main Water network's complete parameter set: layout settings, labeling preferences, Parts List associations, Reference Surface assignments, layer management, and naming templates for pipes, fittings, and appurtenances. Additional tabs offer profile display options, section view settings, and real-time network statistics—invaluable for tracking design progress and ensuring compliance with project requirements.

Similarly, the Parts Properties function enables detailed examination and modification of individual network components. This granular control proves essential when fine-tuning designs or addressing specific site constraints that require component-level adjustments.

The pipe run creation tools offer multiple approaches to network development. Beyond adding new pipe runs manually, you can create runs from existing objects or assemble them from individual parts—flexibility that accommodates various design workflows and data sources. The pipe size selector provides quick access to your most commonly used specifications, while the automatic bend addition feature streamlines the design process significantly.

When automatic bend addition remains enabled, Civil 3D intelligently places appropriate fittings at each vertex of your pipe run layout. This automation saves considerable time while ensuring proper hydraulic connections throughout your network. Should you prefer manual control, simply disable this feature and use the "Add Bend at PI" (Point of Intersection) function to place fittings precisely where needed. The corresponding "Remove Bends at PI" tool provides equal flexibility for design refinements.

Additional tools for branch fittings, standard fittings, and appurtenances complete your design arsenal, with dedicated drop-down menus providing quick access to your Parts List components. The Panorama window offers tabular data management, while the modification tools enable advanced operations like adding profiles, drawing parts into profile views, swapping components, and managing pipe run relationships through breaking and merging operations. Design check functions and labeling tools round out the comprehensive toolset.

Now let's create our first pipe run. Verify your 12-inch pipe selection in the drop-down menu, then click "Add New Pipe Run" and select "Create New Pipe Run." Civil 3D presents the pipe run configuration dialog, confirming your parameters: Water system, 12-inch pipe size, Finished Construction reference surface, and 5-foot cover depth. Click OK to proceed.

Civil 3D now prompts for your network's starting point. Navigate to your alignment's endpoint and snap precisely to this location. Continue by identifying key geometric points along your alignment: curve beginnings and endings provide optimal locations for network vertices, ensuring your pressure network follows the logical path of your roadway design. This approach maintains proper coordination between surface improvements and underground utilities—a critical consideration for constructability and long-term maintenance access.

For this tutorial, we'll terminate at the alignment's opposite end. In actual practice, you would typically connect to existing water mains or system connection points, creating a complete hydraulic network. When working with real projects, model existing infrastructure first, then design your new network to integrate seamlessly with established systems. Unlike gravity pipe networks where elevation and slope relationships prove critical, pressure networks offer greater routing flexibility since water flow depends on system pressure rather than gravitational forces. Your primary concerns focus on adequate cover depth and logical routing for construction and maintenance efficiency.

Complete your pipe run by clicking the final endpoint, then press Escape to exit the command. Notice how Civil 3D automatically generates the complete network—pipes, bends, and fittings—based on your input geometry. This intelligent automation demonstrates the software's power in translating design intent into detailed infrastructure models.

Press Escape again to conclude the command sequence, close the creation tools, and save your drawing. Your pressure network now stands ready for further refinement, hydraulic analysis, and integration with your complete site design. In our next session, we'll explore advanced network modification techniques and quality assurance workflows.