利用极端梯度提升法破解与中国煤田长壁开采相关的地下水温度变化机理

IF 2.4 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Shen Qu, Guangcai Wang, Shouchuan Zhang, Zheming Shi, Xiangyang Liang, Ankun Luo
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引用次数: 0

摘要

针对采矿对地下水系统影响的调查通常对地下水流和化学性质进行定性分析,而对采矿引起的地下水温度扰动进行定量分析的研究相对较少。本研究旨在确定与长壁煤矿开采相关的地下水温度变化的水文地质机制。本研究采用极端梯度提升(XGBoost)方法构建了采矿扰动不同阶段的三个模型,以确定地下水温度动态变化的影响因素:(1)扰动前模型;(2)扰动中模型;(3)扰动后模型。针对从中国鄂尔多斯盆地宁条塔煤田收集的长期地下水监测数据集,对地下水温度动态输入变量的特征相对重要性(FRI)进行了量化。采矿扰动前地下水温度稳定,XGBoost 模型确定各监测井的地下水位是地下水温度变化的最大预测因子。在采矿扰动期间,近距离监测井的地下水温度出现下降,与采矿扰动前的模型相比,上游监测井的地下水温度 FRI 上升了 151-662%。对含水层性质和地下水稳定同位素组成的监测提供了更多证据,表明地下水温度的下降与第四纪表层含水层补给量的增加有关。采矿扰动后,地下水温度和含水层比储量恢复到采矿前的状态。这项研究为了解含水层之间水力联系的变化导致的采矿引起的地下水温度动态提供了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Deciphering the mechanism of groundwater temperature changes associated with longwall mining in a coalfield, China, using the extreme gradient boosting method

Deciphering the mechanism of groundwater temperature changes associated with longwall mining in a coalfield, China, using the extreme gradient boosting method

Investigations focusing on the impacts of mining on groundwater systems typically provide a qualitative analysis of groundwater flow and chemistry, whereas relatively few studies quantitatively analyze groundwater temperature perturbations induced by mining. This study aims to identify the hydrogeological mechanism responsible for changes to groundwater temperature associated with longwall coal mining. Here, the extreme gradient boosting (XGBoost) method was used to construct three models at different phases of mining disturbance to identify the factors governing groundwater temperature dynamics: (1) a pre-disturbance model; (2) an in-disturbance model; and (3) a post-disturbance model. The feature relative importance (FRI) of input variables contributing to groundwater temperature dynamics was quantified for a long-term groundwater monitoring dataset collected from the Ningtiaota Coalfield, Ordos Basin, China. Pre-mining disturbance groundwater temperatures were stable, and the XGBoost model identified the groundwater level of the respective monitoring wells to be the greatest predictor for variation in groundwater temperature. During mining disturbance, proximal monitoring wells exhibited a decline in groundwater temperature, where the FRI of groundwater temperature in an upgradient monitoring well increased by 151–662% relative to the pre-mining disturbance model. The monitoring of aquifer properties and stable isotope composition of groundwaters provided additional evidence to suggest groundwater temperature decreases were associated with increased recharge contributions from surficial Quaternary aquifers. Post-mining disturbance, groundwater temperature and aquifer specific storage demonstrated recovered to pre-mining conditions. This study provides insights into mining-induced groundwater temperature dynamics as a result of changes to hydraulic connection between aquifers.

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来源期刊
Hydrogeology Journal
Hydrogeology Journal 地学-地球科学综合
CiteScore
5.40
自引率
7.10%
发文量
128
审稿时长
6 months
期刊介绍: Hydrogeology Journal was founded in 1992 to foster understanding of hydrogeology; to describe worldwide progress in hydrogeology; and to provide an accessible forum for scientists, researchers, engineers, and practitioners in developing and industrialized countries. Since then, the journal has earned a large worldwide readership. Its peer-reviewed research articles integrate subsurface hydrology and geology with supporting disciplines: geochemistry, geophysics, geomorphology, geobiology, surface-water hydrology, tectonics, numerical modeling, economics, and sociology.
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