Next-generation hydraulic tools improve understanding of complex interactions between river or coastal environments and transportation assets, enabling better design and more efficient project delivery.

Next-Generation Hydraulic Modeling Tools

The next generation of hydraulic engineering tools, particularly two-dimensional (2D) modeling and graphical visualization features, allows users to create better representations of the often complex interaction between transportation assets and the riverine or coastal environments. These representations provide the planning and design team with better data with which project quality can be improved.

The technology can be used to locate and illustrate patterns of flow discharge, water surface elevations, depth, velocity and shear stress. The results allow for more accuracy in estimating flow conditions and flow paths, evaluating hydraulic considerations (including floodplain extent based on Executive Order 13690: Establishing a Federal Flood Risk Management Standard) and assessing climate change or extreme weather event scenarios.

These tools also provide realistic 3D graphical representations of anticipated hydraulic conditions, aiding the hydraulic design as well as structural, geotechnical and environmental design components. The 3D representations enhance communication with regulatory bodies and other stakeholders, improving collaboration and ultimately reducing project delivery times.

Next-generation hydraulic modeling tools represent a significant evolution in hydraulic modeling theory and practice, with real potential for reducing environmental, regulatory, engineering and other impediments to project delivery. The results can significantly improve the ability of highway agencies to design safer, more cost-effective and resilient structures on waterways.

Applications of Next-Generation Hydraulic Design Tools

  • Complex bridge crossings
  • Analysis of bridge options
  • Evaluation of complex floodplain geometry
  • Flood risk assessment
  • Flood mapping
  • Channel restoration
  • Fish habitat analysis
  • Sediment transport analysis
  • Bridge scour analysis
  • Channel stability analysis
  • Scour countermeasure analysis


  • Improved Quality and Resiliency. Better representations provide planning and design teams with better data, leading to improved project quality.
  • Enhanced Collaboration. 3D graphical visualizations derived from 2D modeling offer better tools for communicating the often complex interaction between waterways, the transportation infrastructure, and the surrounding environment.
  • Streamlined Delivery. Improved collaboration through 2D and 3D visualizations offers real potential for reducing environmental, regulatory, engineering and other impediments to project delivery.

State of the Practice

Technology developments in recent years have led to an expanding market of hydraulic modeling programs and tools that are available to the transportation community and can be applied nationally. While 1D modeling is the dominant practice nationwide, almost half of the country’s state departments of transportation are currently either exploring, evaluating or using 2D bridge hydraulic modeling.

The Federal Highway Administration (FHWA) has recognized the benefits of 2D modeling for the safety of the traveling public and in the resilience of transportation infrastructure. This has resulted in guidance and training encouraging its use, including Hydraulic Design of Safe Bridges (HDS 7), Evaluating Scour at Bridges (HEC-18), and Two-Dimensional Modeling of Rivers at Highway Encroachments (FHWA-NHI-135095).

Through round four of Every Day Counts (EDC-4), the FHWA plans to provide additional resources to help states advance their state of practice, including training on modeling software use and how to communicate the results to stakeholders and customers effectively, technical guidance resources on best-practice modeling techniques, user forums and other means of peer exchange for modelers and reviewers, and technical modeling assistance with a limited number of design projects.

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