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A coupled hydrodynamic (<scp>HEC‐RAS 2D</scp>) and water quality model (<scp>WASP</scp>) for simulating <scp>flood‐induced</scp> soil, sediment, and contaminant transport

Afshin Alizadeh Shabani, Sean A. Woznicki, Megan Mehaffey, Jonathan Butcher, Tim A. Wool, Pai‐Yei Whung

2021Journal of Flood Risk Management56 citationsDOIOpen Access PDF

Abstract

Increased intensity and frequency of floods raise concerns about the release and transport of contaminated soil and sediment to and from rivers and streams. To model these processes during flooding events, we developed an External Coupler in Python to link the Hydrologic Engineering Center-River Analysis System (HEC-RAS) 2D hydrodynamic model to the Water Quality Analysis Simulation Program (WASP). Accurate data transfer from a hydrodynamic model to a water quality model is critical. Our test results showed the External Coupler successfully linked HEC-RAS and WASP and addressed technical challenges in aggregating flow data and conserving mass during the flood event. We ran the coupled models for a 100-year flood event to calculate flood-induced transport of sediment-associated arsenic in Woodbridge Creek, NJ. Change in surface sediment and arsenic at the end of 48-h flood simulation ranged from a net loss of 13.5 cm to a net gain of 11.6 cm, and 16.2 to 2.9 mg/kg, respectively, per model segment, which demonstrates the capability of the coupled model for simulating sediment and contaminant transport in flood.

Topics & Concepts

Flood mythHydrology (agriculture)Sediment transportSedimentEnvironmental scienceWater qualityFlooding (psychology)GeologyGeotechnical engineeringGeomorphologyEcologyPsychotherapistBiologyPsychologyTheologyPhilosophyHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementHydrology and Sediment Transport Processes
A coupled hydrodynamic (<scp>HEC‐RAS 2D</scp>) and water quality model (<scp>WASP</scp>) for simulating <scp>flood‐induced</scp> soil, sediment, and contaminant transport | Litcius