城市化流域的山洪模拟:以Bratislava-Karlova Ves为例

IF 0.5 Q3 GEOGRAPHY
Adam Rusinko, Š. Horáčková
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引用次数: 0

摘要

山洪暴发是一种危险的现象,通常影响小型流域。它们主要起源于斜坡的上部,但其破坏性影响主要表现在居民区,在那里自然流动的溪流从地表转移到地下人工河道。因此,没有关于河流水位的精确数据,只有使用地表径流模型才能模拟山洪暴发期间发生的情况。Karlova Ves(布拉迪斯拉发城区),以前是一个小的葡萄栽培村,历史上受到洪水(很可能包括雨淋型)的威胁。本文利用GRASS GIS工具r.sim.water对Čierny potok流域2014年夏季发生的一次山洪地表径流进行了模拟。据报告,2014年8月23日的洪水是本地气象测量期间每小时雨量最高的一次,约40毫米。利用当前正射影像图对土地覆盖进行分类,并将曼宁粗糙度系数和入渗率赋值。利用高分辨率激光雷达数据,用DTM表示地形。我们的初步研究结果表明,土地覆盖和土地利用是影响山洪爆发的关键因素,尽管城市化和高比例的不透水地区是导致入渗降低和水流方向变化的主要因素。模拟表明,在60分钟的极端降雨(40毫米/小时)期间,地表径流可以在地形洼地达到两米深的水,最大流量为25立方米。通过在容易发生山洪暴发的地区增加植被覆盖,以及在降雨较多时积聚雨水,从而振兴自然市区,有助于防止洪水造成的破坏。URL: https://www.gcass.science.upjs.sk/
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flash flood simulation in the urbanised catchment: a case study of Bratislava-Karlova Ves
Flash floods are a dangerous phenomenon that generally affects small drainage basins. They are primarily initiated in the upper parts of the slopes, but their damaging effects are manifested mostly in residential areas, where naturally flowing streams were removed from the surface to the underground artificial channels. Therefore, there are no precise data about stream water levels available and only using surface runoff modelling is possible to simulate what happened during flash floods. Karlova Ves (Bratislava City District), formerly a small viniculture village, was threatened by floods (most probably including pluvial type) in history. In this paper, we used GRASS GIS tool r.sim.water to simulate the surface runoff of a flash flood that occurred in summer 2014 in the catchment of Čierny potok. The flood on 23 August 2014 was reported to have the highest rainfall per hour ~40 mm during the time of local meteorological measurements. The current orthophotomap was used to classify the land cover classes, which were assigned the value of the Manning’s roughness coefficient and infiltration rate. The topography was expressed by DTM from high-resolution LiDAR data. Our preliminary results indicate that land cover and land use are the essential factors that influence the initiation of flash floods, although the main driver of lower infiltration and change in flow direction is caused by urbanisation and a high proportion of impervious areas. Simulation showed that during 60 minutes of extreme rainfall (40 mm/hr) a surface runoff can reach a depth of water up to two meters in terrain depressions by a maximum discharge of 25 cubic meters. The revitalisation of natural urban areas by increasing vegetation cover in areas prone to flash floods and accumulation of water during higher rainfalls helps to prevent the damage caused by floods. URL: https://www.gcass.science.upjs.sk/
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来源期刊
CiteScore
0.80
自引率
0.00%
发文量
4
期刊介绍: Geographia Cassoviensis is a biannual peer-reviewed journal published by the Pavol Jozef Šafárik University in Košice since 2007. It is available both in print and open-access electronic version. The journal publishes original research articles from Geography and other closely-related research fields. Since 2016 the journal is indexed in SCOPUS and ERIH PLUS - European Reference Index for Humanities and Social Sciences, and since 2017 also in Emerging Sources Citation Index by Clarivate Analytics.
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