The Intensity of Water Removal From Shallow Drainage Systems Considering the Properties of Filler Materials

O. Slavinska, A. Bubela, Oleksandr Chechuha, L. Bondarenko
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Abstract

To date, there are virtually no experimental studies of drainage structures. The object of the presented study is a road structure with transverse shallow drainage arranged in wet sections of roads. In order to determine the drainage intensity of the drainage structure, an experiment was performed on a special installation for modeling the road structure depending on the properties of filler materials. Parameters of the installation make it possible to arrange a structure that corresponds to real conditions, that is, the parameters of a road of category III and study the processes of formation of the filtration flow in the drainage trench which is impossible with real objects. The laboratory installation was used to study operating conditions of drainage structures: a layer of crushed stone of 20–40 mm fraction and two types of transverse shallow drains with different filler materials in the trench. In the process of a series of experimental studies, the volume of water drained from the trench and drainage time was measured. According to the study results, based on the methods of mathematical statistics, unified equations of the correlation-regression model concerning the mode of operation of the drainage structure were constructed depending on initial soil moisture in the roadbed. According to the results of experimental studies, one of the main indicators of work of shallow drainage structures which depends on the properties of materials of trenches fillers, that is, the drainage intensity was determined. It was found that in contrast to the structure with a PVC pipe filled with coarse sand, the drainage structure with a crushed stone core in the trench worked in one mode of the formed flow. The work of the structure with the pipe is divided into short-term and long-term modes depending on the drainage intensity. The obtained regression dependences enable forecasting of the amount of water drained by the proposed drainage structures in a certain period for field conditions
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考虑填料性能的浅层排水系统除水强度
迄今为止,几乎没有关于排水结构的实验研究。本研究的对象是一个横向浅排水的道路结构布置在湿路段。为了确定排水结构的排水强度,根据填充材料的特性,在一个特殊的道路结构模拟装置上进行了实验。通过装置参数,可以安排符合实际条件的结构,即III类道路的参数,并研究实际物体无法实现的排水沟过滤流的形成过程。采用实验室装置研究排水结构的运行条件:沟槽内一层20-40 mm碎石,两种不同填充物的横向浅排水管。在一系列的实验研究过程中,测量了沟槽排水量和排水时间。根据研究结果,基于数理统计的方法,建立了基于路基初始土壤含水量的排水结构运行方式相关回归模型的统一方程。根据试验研究结果,确定了浅排水构筑物工作的主要指标之一,即排水强度,该指标取决于沟槽填料材料的性质。研究发现,与PVC管填充粗砂结构相比,沟槽内碎石芯的排水结构工作在一种形成流模式下。带管结构的工作根据排水强度分为短期和长期两种模式。所获得的回归依赖关系能够预测在特定时期的野外条件下,所提出的排水结构的排水量
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