不同孔隙度结构HDPE防砂网的防砂效果

Pub Date : 2022-12-01 DOI:10.1016/j.rcar.2023.02.001
QingHe Niu , JianJun Qu , AiGuo Zhao , LiHai Tan
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引用次数: 0

摘要

草格子沙障是一种由上部透水、下部致密组成的多孔结构,被广泛应用于防沙防沙。考虑到这一点,针对HDPE防砂网检查板屏障设置后严重的地表下切问题,采用HDPE(高密度聚乙烯)材料制备了具有类似多孔结构的新型防砂材料。通过风洞模拟和现场防砂监测,比较了3种不同孔隙度结构的HDPE防砂网的防砂效果。与均匀孔隙度结构的防沙网相比,3种不同孔隙度结构的HDPE防沙网降低输沙率的效果较差,但在低风速条件下(12 m/s)防沙网前有效防护距离较长,在高风速条件下(14 m/s)防沙网前有效防护距离较长,在所有实验风速条件下防沙网间有效防护距离较长。不同孔隙度结构的HDPE防沙网防风防砂效果特点,为半埋方格沙障防砂提供了理想的材料。而采用均匀型防沙网作为高竖式防沙栅栏的材料进行挡沙。这些HDPE防沙网可以替代传统的防沙材料,在风沙灾害防治中具有广泛和普及的应用潜力。
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Sand control effect of HDPE sandbreak nets with different porosity structure

Straw checkerboard sand barriers with a porous structure that consists of a pervious upper portion and a dense lower portion are widely used to achieve great sand control effect. Considering this, and resolving the serious earth surface undercutting problem after HDPE sandbreak net checkboard barriers setting, the authors used HDPE (high-density polyethylene) materials to prepare new sandbreak materials with a similar porous structure. Through wind tunnel simulations and field sand control monitoring, we compared the sand control effect of three HDPE sandbreak nets with different porosity structure. Compared to the sandbreak net with uniform porosity structure, the three types of HDPE sandbreak nets with different porosity structure had poorer effect on reducing sand transport rates, but had longer effective protection distance before sandbreak nets at low wind velocity conditions (<12 m/s), longer effective protection distance at high wind velocity (>14 m/s) and longer effective protection distance between sandbreak nets at all experimental wind velocity conditions. Wind and sand control effect characteristics of HDPE sandbreak nets with different porosity structure provide an ideal material on semi-buried checkerboard sand barriers for sand stabilization. By contrast, uniform-type sandbreak nets are used as materials on high upright sand fences for sand blocking. These HDPE sandbreak nets can be used to replace traditional sandbreak materials and have a very high potential for widespread and popular application in aeolian sand disaster control.

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