Effectiveness of a New Drainage System for Decreasing Erosion in Road Hillslopes

IF 3.5 Q2 ENVIRONMENTAL SCIENCES
M. Fernández‐Raga, Iván García-Diez, J. Campo, Julio Viejo, C. Palencia
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引用次数: 5

Abstract

Water is one of the most important erosive agents in roadside hillslopes. When these are built with ineffective drainage systems, erosion occurs, reducing road’s service life. However, these systems are not receiving the appropriate importance, given their strategic value. Therefore, a new drainage system called ‘branched’ is proposed in this study. Its technical and economic feasibility is compared with those of the traditional system, which consists of drainages with lines that follow maximum hillslope, to assess differences in relation to erosion, construction and maintenance costs, and service life. Different parameters were analysed, such as the average velocity of water (mm−1) running through the channels, its average specific energy (kJ), and its drag force (N). A scale model was constructed and used to test these factors before implementing it in natural terrain for testing it under field conditions. According to the theoretical and measured results, these factors were lower in the branched drainage than in the traditional one (from 24% to 34% in speed, from 37% to 60% in energy, and from 51% to 73% in force). The service life of hillslopes with a branched system of up to 0.5 m high and 1:2 grade is significantly longer than in those with a traditional drainage. Although the initial economic expense for the construction of the branched system is higher (€3534/m3 as opposed to €2930/m3 for the traditional one), its maintenance cost will be lower than the traditional one (€1230/m3 per year for the branched one as opposed to €1332/m3 per year for the traditional one). Consequently, under our experimental conditions, the proposed drainage will be profitable from the eighth year of construction, saving on the road maintenance in the following 15 years of service life.
新排水系统对减少道路斜坡侵蚀的成效
水是路旁山坡最重要的侵蚀因子之一。当这些道路与无效的排水系统一起建造时,就会发生侵蚀,减少道路的使用寿命。然而,鉴于这些系统的战略价值,它们并没有得到适当的重视。因此,本研究提出了一种新的排水系统,称为“分支”。将其技术和经济可行性与传统系统进行比较,以评估与侵蚀、建设和维护成本以及使用寿命相关的差异。传统系统由沿最大坡度的排水线路组成。分析了不同的参数,如通过通道的平均流速(mm−1)、平均比能(kJ)和阻力(N)。构建了一个比例模型,用于测试这些因素,然后在自然地形中实施,以便在现场条件下进行测试。理论和实测结果表明,支路排水的这些因素(速度从24%降至34%,能量从37%降至60%,力从51%降至73%)均低于传统排水。高0.5 m、坡度1:2的支路系统边坡的使用寿命明显长于传统排水系统。虽然建设分支系统的初始经济成本较高(3534欧元/m3,而传统系统为2930欧元/m3),但其维护成本将低于传统系统(1230欧元/m3 /年,而传统系统为1332欧元/m3 /年)。因此,在我们的实验条件下,建议的排水系统将从建设的第八年开始盈利,在接下来的15年的使用寿命中节省道路维护费用。
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
Air Soil and Water Research
Air Soil and Water Research ENVIRONMENTAL SCIENCES-
CiteScore
7.80
自引率
5.30%
发文量
27
审稿时长
8 weeks
期刊介绍: Air, Soil & Water Research is an open access, peer reviewed international journal covering all areas of research into soil, air and water. The journal looks at each aspect individually, as well as how they interact, with each other and different components of the environment. This includes properties (including physical, chemical, biochemical and biological), analysis, microbiology, chemicals and pollution, consequences for plants and crops, soil hydrology, changes and consequences of change, social issues, and more. The journal welcomes readerships from all fields, but hopes to be particularly profitable to analytical and water chemists and geologists as well as chemical, environmental, petrochemical, water treatment, geophysics and geological engineers. The journal has a multi-disciplinary approach and includes research, results, theory, models, analysis, applications and reviews. Work in lab or field is applicable. Of particular interest are manuscripts relating to environmental concerns. Other possible topics include, but are not limited to: Properties and analysis covering all areas of research into soil, air and water individually as well as how they interact with each other and different components of the environment Soil hydrology and microbiology Changes and consequences of environmental change, chemicals and pollution.
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