ASSESSMENT OF DIGITAL TERRAIN MODELS IN DAM BREAK SIMULATION STUDIES

IF 0.5 Q3 Earth and Planetary Sciences

Boletim De Ciencias Geodesicas Pub Date : 2021-03-29 DOI:10.1590/S1982-21702021000100005

Rodrigo Pereira Lima, M. T. Elmiro, M. Nero, P. Temba, B. Fonseca, Luiz Henrique Guimarães Castiglione

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引用次数: 0

Abstract

Abstract: Dams are structures built for controlling the flow of water for many useful purposes such as water supply, power generation, retention of mining and industrial waste, as well as recreation and flood control. However, they bring together some risk of dam body collapse causing damage for the dam downstream areas. Therefore, hypothetical dam break studies which provide mapping of areas potentially attainable in the event of a rupture are especially important for planning actions aiming minimization of associated losses. The aim of this research is to assess the degree of adherence or similarity between flood maps obtained by simulation studies and those effectively obtained from the collapse itself occurred in Dam I owned by Vale SA on January 25, 2019. The study focuses mainly on comparing the effects over the simulated flood maps caused by use of different representation of dam downstream topography relief, namely Shuttle Radar Topography Mission (SRTM), Advanced Land Observing Satellite from Alaska Satellite Facility (ALOS_ASF) and Airborne Laser Scanning (ALS) models. The simulations were performed using the HEC-RAS software developed by the US Army Corps of Engineers considering hypothesis of strong influence of relief in flood mapping results. In this way, three simulation tests were carried out for evaluation and discussion. In the first simulation, the digital terrain model derived from ALS was used. The second simulation was carried out associating the digital surface model ALOS_ASF with a spatial resolution of 12.5 m. Finally, the SRTM digital elevation model with 30 m spatial resolution provided by the United States Geological Survey (USGS) was used in third simulation. Results showed better adherence to simulations using data from ALS. This was verified by visual analysis over high resolution orthorectified images and by calculating statistics indicators such as the (F) index. Conclusions pointed out that flood patches resulting from simulation are critical tools for taking actions involving areas and populations to be affected, so the best relief model technologies like ALS data should be used in simulation.

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数字地形模型在溃坝模拟研究中的评价

摘要:大坝是为控制水流而建造的结构，具有供水、发电、截留采矿和工业废物、娱乐和防洪等多种用途。但同时也带来了一定的坝体坍塌风险，对坝体下游地区造成损害。因此，假设溃坝研究提供了在溃坝事件中可能达到的区域地图，这对于规划旨在将相关损失最小化的行动尤为重要。本研究的目的是评估通过模拟研究获得的洪水图与2019年1月25日Vale SA拥有的1号坝发生崩塌时有效获得的洪水图之间的粘附程度或相似性。研究重点比较了大坝下游地形起伏的不同表现形式，即航天雷达地形任务(SRTM)、阿拉斯加卫星设施先进陆地观测卫星(ALOS_ASF)和机载激光扫描(ALS)模型对洪水模拟图的影响。采用美国陆军工程兵团开发的HEC-RAS软件进行模拟，考虑到救灾对洪水制图结果的强烈影响。以此为基础，进行了三次模拟试验，进行了评价和讨论。在第一次仿真中，使用了ALS衍生的数字地形模型。第二次模拟将数字地表模型ALOS_ASF与12.5 m的空间分辨率关联起来。第三次模拟采用美国地质调查局(USGS)提供的30 m空间分辨率SRTM数字高程模型。结果显示，使用ALS数据的模拟具有更好的依从性。通过对高分辨率正射影像的视觉分析和统计指标(F)指数的计算，验证了这一点。结论指出，模拟得到的洪水斑块是采取涉及受影响地区和人群的行动的关键工具，因此应采用ALS数据等最佳救灾模型技术进行模拟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Boletim De Ciencias Geodesicas Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

1.70

自引率

20.00%

发文量

审稿时长

3 months

期刊介绍： The Boletim de Ciências Geodésicas publishes original papers in the area of Geodetic Sciences and correlated ones (Geodesy, Photogrammetry and Remote Sensing, Cartography and Geographic Information Systems). Submitted articles must be unpublished, and should not be under consideration for publication in any other journal. Previous publication of the paper in conference proceedings would not violate the originality requirements. Articles must be written preferably in English language.