Effects of the tributary channel and water catchment area on rinnenkarren development (Totes Gebirge, Austria)

IF 1.1 4区地球科学 Q4 ENVIRONMENTAL SCIENCES

Physical Geography Pub Date : 2022-10-05 DOI:10.1080/02723646.2022.2127477

Z. Mitre

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引用次数: 1

Abstract

ABSTRACT The goal of this study is to interpret the cross-sectional increases of rinnenkarren systems with the use of analytical model and CFD simulation. In rinnenkarren, water accumulation from the catchment was approximated using an analytical method based on field data. The length of eddies appearing at tributary junctions was studied by CFD in model channels. The results of the analytical and numerical models were compared against morphometrical parameters of rinnenkarren surveyed in the Totes Gebirge (Austria). It is found that there is a relationship between catchment size and channel development. Along small catchments, channel development is random. However, channel development along large catchments is controlled by water concentration. Decrease in the slope angle of the catchment results in an increase in the volume of water entering the channel and development of tributary channels. When water inflow is not concentrated in a single place, several smaller tributary channels emerge. When it is concentrated, only one large-sized and long tributary develops. At the junctions of large tributaries significant vorticity was identified in the CFD models. In addition to the previous model studies, the similarity between the lengths of the simulated vorticity sections and the local field hollowings was revealed.

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支流河道和集水区对rinnenkarren开发的影响(奥地利Totes Gebirge)

摘要本研究的目的是利用分析模型和CFD模拟来解释rinnenkarren系统的横截面增加。在rinnenkarren，使用基于现场数据的分析方法对集水区的积水进行了近似。利用CFD方法对模型通道中支流交汇处出现的涡流长度进行了研究。将分析和数值模型的结果与在Totes Gebirge（奥地利）调查的rinnenkarren的形态测量参数进行了比较。研究发现，流域大小与河道发育之间存在一定的关系。沿着小流域，河道发展是随机的。然而，沿大型集水区的河道发展受水浓度的控制。集水区坡度角的减小导致进入河道的水量增加和支流河道的发展。当进水不集中在一个地方时，会出现几个较小的支流通道。集中时仅发育一条大型长支流。在大型支流的交界处，CFD模型中确定了显著的涡度。除了先前的模型研究外，还揭示了模拟涡度截面的长度与局部场空洞之间的相似性。

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

Physical Geography 地学-地球科学综合

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Physical Geography disseminates significant research in the environmental sciences, including research that integrates environmental processes and human activities. It publishes original papers devoted to research in climatology, geomorphology, hydrology, biogeography, soil science, human-environment interactions, and research methods in physical geography, and welcomes original contributions on topics at the intersection of two or more of these categories.