Two-dimensional Floodplain Modeling
Two-dimensional Floodplain Modeling

Author: D. Michael Gee

Publisher:

Published: 1990

Total Pages: 14

ISBN-13:

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A two-dimensional horizontal finite element numerical model (RMA-2) was applied to a 15 mile (24 km) river channel-floodplain reach in West Germany. Previous applications of such models have been restricted to much smaller scales. The results indicate that finite element schemes may successfully estimate river stage in large scale floodplain applications. Computed stage hydrographs compared well with observed data using loss coefficients within expected ranges. Two-dimensional flow models have been applied to certain classes of river channel problems. Applications have included detailed analyses of flow patterns near structures such as bridges and floodplains. In all these problems the scale of interest has been small, e.g. reaches of river a few river widths long. Many estuary studies have been done that were of large scale; some of these utilized a hybrid (numerical plus physical) modeling technique. In a review of the application of finite element methods to river channels, Samuels reported that the river channel was resolved separately from the floodplain in only two studies. Missing in previous work is attention to large scale floodplain modeling. The work reported in this paper focuses on the feasibility and accuracy of applying a two-dimensional flow model to a large floodplain. Traditional floodplain studies have used semi-empirical flow routing with steady, one-dimensional computation of water surface elevations to define inundated areas. Keywords: Army Corps of Engines. (kr).

Application of Two-dimensional Hydraulic Modeling in Riverine Systems Using HEC-RAS
Application of Two-dimensional Hydraulic Modeling in Riverine Systems Using HEC-RAS

Author: Abdulaziz Saeed Alzahrani

Publisher:

Published: 2017

Total Pages: 83

ISBN-13:

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Flood simulation models have a wide variety of approaches that are available to compute the water surface elevations associated with a flood event. Some of these models use a One-dimensional (1D) approach, others use a Two-dimensional (2D), and there are others allow the use of integrated 1D and 2D simulations. In 2015, the US Army Corps of Engineering Hydrologic Engineering Center (HEC) released HEC-RAS Version 5.0.3 which performs 1D steady and unsteady flow calculation, as well as 2D unsteady flow calculation. 2D modeling is likely to become more common due to HEC-RAS. This paper is the comparison of 1D and 2D models for a water level in the channel and the floodplain inundation. Two treatments of the problem are explored: (1) a 1D model based upon discretization of floodplain units into storage areas; (2) a 2D model for a channel and a floodplain surface. The two models were tested on the Great Miami River and Bear Creek. The models were assessed by comparison with measured inundation extent. Also, the study reviews the academic basis for modeling floodplain flow based on a two-dimensional analysis. The goal of the proposed research effort will be to include the application of 2D unsteady-state models in future releases of the HEC-RAS 2D model.

A Two-Dimensional Flood Routing Calculation
A Two-Dimensional Flood Routing Calculation

Author: Charles Noble

Publisher:

Published: 1982

Total Pages: 18

ISBN-13:

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The desirability of accurately predicting the extent and duration of flooding resulting from the partial or total breach of a dam has been emphasized recently. The most practical way to meet this need is the development and use of good computer-based models. In order to predict the routing of floods, several hydrograph routing and one-dimensional models have recently been developed. Among the better known models are those employed in the code DAMBRK, Fread (1980) and in HEC-1 (1973). These models have proved to be quite good in predicting the flooding in those cases which have been amenable to a one-dimensional treatment. The accuracy of these models in situations which are clearly two-dimensional in nature is suspect, however. It is thus desirable to develop two-dimensional flood routing models to properly handle those situations in which the one-dimensional models are inadequate. Energy Incorporated (EI) has developed a computer code, FLOOD, that describes the two-dimensional motion of a flood. An analysis of the hypothetical Mackay Dam failure was performed using FLOOD. In this paper are given the equations used by EI, the numerical algorithm used for their solution, and the results of the Mackay Dam analysis.

World Environmental and Water Resources Congress 2009
World Environmental and Water Resources Congress 2009

Author: Steve Starrett

Publisher: Amer Society of Civil Engineers

Published: 2009

Total Pages:

ISBN-13: 9780784410363

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The papers in this proceedings were presented at the World Environmental & Water Resources Congress 2009, which was held in Kansas City, Missouri from May 17 to 21. This annual conference is an important opportunity for professionals in the environmental and water resources fields to convene and focus on issues facing our world. The theme of this year s technical program is the Great Rivers of the World. This proceedings illuminates the engineering challenges of addressing the important environmental and development issues while focusing on the need for a sustainable future.

Evaluating 1 and 2D Dimensional Models for Floodplain Inundation Mapping
Evaluating 1 and 2D Dimensional Models for Floodplain Inundation Mapping

Author:

Publisher:

Published: 1999

Total Pages: 39

ISBN-13:

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The aim of this project is to undertake a feasibility study into the potential utility of integrating high resolution two dimensional finite element flow models and Geographical Information Systems technology. The initial phase of this research concerns the construction of an operational high resolution flow model for a 60km reach of the Missouri River between Gavins Point Dam and Maskell gauging station. Specifically, the contract seeks to produce a CRREL report and to assess data needs for 2D FE models for river flow inundation. This report contains a brief review of progress on this work unit during months 3-6 of the research contact.