Flood Modeller Tutorial Module01

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Introduction

In this module we will link an existing 2D TUFLOW domain to an existing Flood Modeller 1D model. The 2D TUFLOW domain will represent the floodplain in the study area, and the 1D Flood Modeller model will represent the watercourse and all online structures. 1D-2D linked models are able to utilise the individual benefits of 1D and 2D solution schemes. In this example, the 1D Flood Modeller scheme is used to represent the watercourses where the flow is essentially one-directional. A 2D scheme is suited to the representation of floodplains where a more detailed flow patterns may occur.

Modelling a Channel in 1D and the Floodplain in 2D

TUFLOW may be dynamically linked to 1D networks using the hydrodynamic solutions of ESTRY (TUFLOW 1D), Flood Modeller (previously ISIS), XP-SWMM and 12D Solutions’ Dynamic Drainage.

Existing Model Data

Introduction

This section of the tutorial provides a summary of the background Flood Modeller and TUFLOW model data that has been provided for the purposes of this tutorial. The aim of this module is to demonstrate the linking of a 2D TUFLOW domain to a Flood Modeller 1D model, hence detailed instructions on creating a TUFLOW 2D domain or building a Flood Modeller 1D model have not been provided. If you are not familiar with either of these concepts, we suggest familiarising yourself with the recommended resources listed above. TUFLOW This tutorial builds upon the 2D TUFLOW domain that was constructed as part of Module 1 and Module 2 of the TUFLOW Tutorial Model. This TUFLOW model consists of:

  • Definition of Active/In-Active Areas
  • Definition of Land Use
  • 1D ESTRY culverts
  • 1D/2D boundary links to connect the 1D ESTRY culverts to the 2D TUFLOW domain.

The provided model differs from Module 2 in that the 2D boundary conditions (upstream inflows and downstream stage-discharge boundary) have been removed from the model. These will instead be represented in Flood Modeller as it is a more typical schematisation for a 1D/2D linked model. Hydraulic structures along the watercourse have also been removed and have been represented in the Flood Modeller 1D model. Amended versions of the TUFLOW control files and GIS files have been provided as part of this tutorial in preparation for linking to Flood Modeller.

Flood Modeller

A complete Flood Modeller 1D model of the watercourse has been provided for the purposes of this tutorial. The model data has been arranged in the following folder structure. For further information on each file type, please refer to the Flood Modeller User Manual:

  • DAT: Contains the Flood Modeller 1D network file.
  • IED: Contains event data of the model.
  • IEF: A blank folder in which to store the 1D Simulation Files.
  • IIC: Contains initial conditions of the model
  • RES: A blank folder in which to write the Flood Modeller result files.

For this tutorial, the floodplain of the study area will be modelled entirely in TUFLOW. The cross-sections in the Flood Modeller 1D model have been trimmed to the top of bank to ensure there is no double-counting of storage within the floodplain. Upstream and downstream boundary data is contained separately within the IED files. These will be referenced and linked to the Flood Modeller 1D model via the IEF 1D simulation file.

GIS and Model Inputs

The steps necessary to modify each of the GIS inputs are demonstrated in MapInfo, ArcGIS and QuantumGIS (QGIS). At each stage please select your GIS package to view relevant instructions.