Abstract
Iron tailings ponds are engineered dam and dyke systems used to capture iron tailings. They are high-risk hazards with high potential energy. If the tailings dam broke, it would pose a serious threat to the surrounding ecological environment, residents’ lives, and property. Rainfall is one of the most important influencing factors causing the tailings dam break. This paper took Chengde Area, a typical iron-producing area, as the study area, and proposed a remote sensing method to evaluate the safety risk of tailings ponds under rainfall condition by using runoff coefficient and catchment area. Firstly, the vegetation coverage in the study area was estimated using the pixel dichotomy model, and the vegetation type was classified by the support vector machine (SVM) method from Landsat 8 OLI image. Based on DEM, the slope of the study area was extracted, and the catchment area of the tailings pond was plotted. Then, taking slope, vegetation coverage, and vegetation type as three influencing factors, the runoff coefficient was constructed by weight assignment of each factor using analytic hierarchy process (AHP) model in both quantitative and qualitative way. Finally, the safety risk of tailings ponds was assessed according to average runoff coefficient and catchment area in the study area. The results showed that there were 124 low-risk tailings ponds, 16 moderate-risk tailings ponds, and 4 high-risk tailings ponds in the study area. This method could be useful for selecting targeted tailings ponds for focused safety monitoring. Necessary monitoring measurements should be carried out for the high-risk and moderate-risk tailings ponds in rainy season.
Highlights
Mineral resources are one of the most important resources for human survival, which bring a series of safety problems while they are exploited and utilized [1]
The objective of this paper is to present a method towards assessing the safety risk of tailings ponds by estimating the runoff coefficient in the catchment area of tailings ponds by using analytic hierarchy process (AHP) model
The study area is located in the southeast of Chengde Area, Hebei Province, North China
Summary
Mineral resources are one of the most important resources for human survival, which bring a series of safety problems while they are exploited and utilized [1]. As an important part of beneficiation production, tailings pond is composed of one or more tailings dams stacking to intercept the valley mouth or enclosure. Tailings pond is used to store the solid waste left in the process of mining, which contains a small number of useful components and is no longer suitable for further separation under current economic and technological conditions. It can be predicted that the tailings will continue to increase. Because it usually contains lots of harmful elements, rivers and farmland around the tailings pond may be polluted seriously through runoff and infiltration [3]. Tailings and waste water will pour down, and the residential areas downstream will be Sensors 2018, 18, 4373; doi:10.3390/s18124373 www.mdpi.com/journal/sensors
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