Research on Water Dynamics of Weathered Coal Gangue Dumps

ZHANG Rui; ZHANG Chengliang; LI Meisheng; Zhang Hongjiang; Cheng Jinhua

doi:11894/1005-829x.2008.28(1).124

您当前的位置：

首页 >

文章列表页 >

Research on Water Dynamics of Weathered Coal Gangue Dumps

- Research on Water Dynamics of Weathered Coal Gangue Dumps
- Bulletin of Soiland Water Conservation Vol. 27, Issue 1, Pages: 124-129(2008)
- 作者机构：
  
  1. 北京林业大学水土保持学院,北京,100083
  2. 山西绿宝园林设计研究所,山西,太原,030012
  3. 山西国阳新能股份有限公司,山西,阳泉,045000
- 作者简介：
- 基金信息：
- DOI：11894/1005-829x.2008.28(1).124
  CLC： S157.2TS78
- Published：2008
- 稿件说明：
移动端阅览
ZHANG Rui, ZHANG Chengliang, LI Meisheng, et al. Research on Water Dynamics of Weathered Coal Gangue Dumps[J]. Bulletin of Soiland Water Conservation, 2008, 27(1): 124-129.
DOI：

ZHANG Rui, ZHANG Chengliang, LI Meisheng, et al. Research on Water Dynamics of Weathered Coal Gangue Dumps[J]. Bulletin of Soiland Water Conservation, 2008, 27(1): 124-129. DOI： 11894/1005-829x.2008.28(1).124.

摘要

以山西省阳泉市280煤矸石山为研究对象

通过对煤矸石物理性质、水分入渗特性和水分含量的分析

初步研究了煤矸石山风化堆积物水分的动态特征。研究结果表明

煤矸石质地较差

砾石和块石平均含量达86.07%。煤矸石山孔隙组成以非毛管孔隙为主

其剖面4个深度(0-15cm

15-30cm

30-45cm

45-60cm)的毛管孔隙度平均值分别为1.40%

1.36%

1.32%和1.17%

导致土壤持水量常年维持在较低水平

0-60cm的平均土壤持水量为19.7t/hm

。Kostiakov入渗模型能较好地反映研究地区煤矸石风化物的入渗过程

且在入渗过程中煤矸石风化物一直保持着较高的渗透速率。煤矸石风化堆积物水分季节性变化主要受降水量及其季节分配的影响

随着季节性降水量的增加

矸石风化物水分平均含量也相应升高。煤矸石山的储水量与降水量之间

表现出较好的一元线性正相关关系。在降雨量较少

或是降雨次数多

雨强较大的情况下

裸露煤矸石地的储水量往往大于覆土煤矸石地的储水量。一般情况下

煤矸石山30-40cm深处有明显的干层

使得煤矸石山下层在旱季保持有较多的水分。

Abstract

Water dynamics of the 280 coal gangue dumps in Yangquan City

Shanxi Province was preliminarily studied by the analyses of physical properties

water infiltration characteristics

and water contentof the weathered gangue. Results showed thatcoal gangue texture was poor and the average contentof gravel and boulder was as high as 86. 07 %. The coal gangue dumps were dominated by non-capillary pore and the aver age values of capillary pore atthe four depths (15

and 60 cm) in the profile were 1. 40 %

1. 36 %

1. 32 %

and 1. 17 %

respectively. This caused soil water2holding capacity maintaining ata low-level throughoutthe year and the average water-holding capacity at60 cm depth was 19. 7 t/hm2. Kostiakov infil tration model can well describe the infiltration process of weathered gangue. During the infiltration process

weathered gangue had higher infiltration rate. The seasonal change in water contentof weathered gangue was mainly influenced by the amountof rainfall and its distribution. With the increasing seasonal rainfall

the av erage water contentof weathered gangue rose correspondingly. Water storage of gangue dump was linearly related with the amountof rainfall. When the amountof rainfall was low

or rainfall eventwas highly fre quent

water storage of exposed gangue was more than thatof the gangue dump covered with soil. Generally speaking

there was a dry layer between 30 and 40 cm in gangue dump

which made the lower layers of gangue dump keeping more moisture in dry season.

关键词

Keywords

references

Views

1347

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

Hydrological Model of Uniform Hillslope in Loess Region

Changes of Infiltration Characteristics of Abandoned Cropland with Plant Restoration in Loess Hilly Region

Effect of Comprehensive Watershed Control on Infiltration Rate in the Qinba Mountain Area

Soil Water Storage and Infiltration Characteristics of Different Forest Soils in Laotudingzi Natural Reserve

Using Depth of Soil Water and Water Consumption by Littleleaf Peashrub in the Semiarid Area of Loess Hilly Region

Related Author

TIAN Fengxia

WANG Zhanli

HUANG Xinhui

WANG Guo-liang

LIU Guo-bin

BO Hai-feng

FAN Yi-lin

REN Hong-yu

Related Institution

State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Chinese Academy of Science and Ministry of Water Resources, Yangling District

Institute of Soil and Water Conservation, Chinese Academy of Sciences and Ministry of Water Resources, Yangling

Northwest Sci-Tech University of Agriculture & Forestory,Yangling

Department of Soil and Water Conservation,Yangtze River Scientific Research Institute

Administration of Laotudingzi National Nature Reserve

⁰