姬红英, 韩涤清, 辛亚军, 等. 煤矿沉陷区砾石黏土层水体溶质迁移特征[J]. 煤炭学报, 2020, 45(S1): 393-404. DOI: 10.13225/j.cnki.jccs.2019.1374
引用本文: 姬红英, 韩涤清, 辛亚军, 等. 煤矿沉陷区砾石黏土层水体溶质迁移特征[J]. 煤炭学报, 2020, 45(S1): 393-404. DOI: 10.13225/j.cnki.jccs.2019.1374
JI Hongying, HAN Diqing, XIN Yajun, et al. Characteristics on water-body solute migration of gravel clay in mine subsidence area[J]. Journal of China Coal Society, 2020, 45(S1): 393-404. DOI: 10.13225/j.cnki.jccs.2019.1374
Citation: JI Hongying, HAN Diqing, XIN Yajun, et al. Characteristics on water-body solute migration of gravel clay in mine subsidence area[J]. Journal of China Coal Society, 2020, 45(S1): 393-404. DOI: 10.13225/j.cnki.jccs.2019.1374

煤矿沉陷区砾石黏土层水体溶质迁移特征

Characteristics on water-body solute migration of gravel clay in mine subsidence area

  • 摘要: 煤矿开采极易造成地表沉陷,煤矿沉陷区地表水通过渗透介质影响浅层地下水,造成浅层地下水质改变,焦作市西部煤矿沉陷区地表-浅层地下水的渗透介质为黏土层,地表水与浅层地下水极易贯通形成交叉污染,进而严重影响浅层地下水体功能。通过在试验区布置8个两河地表水和13个浅层地下水监测点,对TDS,pH,EC及Na+,Cl-,SO2-4,Ca2+,Mg2+,NO-3浓度进行现场监测,分析了地表水和浅层地下水化学组分及水化学类型差异,研究了砾石黏土对地表水化学组分的阻滞作用,获得了地表水与浅层地下水的水化学差异联系特征。结果表明:两河地表水与浅层地下水的TDS,pH,EC差异明显,白马门河和大石河地表水的TDS,pH,EC分别为浅层地下水的-23.31%,9.65%,-23.58%和377.30%,19.86%,378.60%;两河地表水与浅层地下水化学类型呈差异过渡,白马门河Cl·SO4-Na·Ca型地表水经砾石黏土浅层地下水由Cl·SO4-Mg·Ca·Na型过渡为Cl·SO4-Mg·Ca型,大石河Cl·SO4-Na型和Cl·SO4-Na·Ca型地表水经砾石黏土浅层地下水由Cl·SO4-Na·Ca型和Cl·SO4-Na型过渡为Cl·SO4-Mg·Ca型;大石河地表水Na+,Mg2+,Ca2+,Cl-和浓度明显高于浅层地下水,白马门河地表水与浅层地下水差异不明显;随着距大石河距离增加,西南→东北浅层地下水Na+,Mg2+,Ca2+,Cl-,浓度呈急剧降低→缓慢降低→稳定趋势;地表水离子浓度与降解率成正比,浅层地下水离子本底值与降解率成反比,砾石黏土对水化学组分降解率和单位降解率顺序均为Na+>Cl->SO2-4>Ca2+>Mg2+;当Na+,Cl-,SO2-4,Ca2+,Mg2+的地表水-浅层地下水浓度差小于1 478.71,1 325.09,2 177.54,308.71,39.52 mg/L时,其单位降解率与地表水-浅层地下水浓度差呈正相关性。

     

    Abstract: Subsidence area is easily caused by coal mining,where surface water affects shallow groundwater through permeable medium,and shallow groundwater solute changes. In the coal-mine subsidence of the western Jiaozuo,the permeable medium between surface water and shallow groundwater is gravel clay. Surface water easily permeates and pollutes shallow groundwater,which seriously influences groundwater function. In the test area,eight surface water monitoring points and thirteen shallow groundwater ones were arranged,and TDS,pH,EC Na+,Cl-,SO2-4,Ca2+,Mg2+,NO-3and in surface water and shallow groundwater were monitored. Based on these monitoring data,the differences of chemical components and types between surface water and shallow groundwater were carefully analyzed,the retardation effect of permeable medium on the chemical components in surface water were explored,and the characteristics on the chemical-difference relationship between surface water and shallow groundwater was studied. The results showed that the differences of TDS,pH,EC were obvious between two-river surface water and shallow groundwater,the TDS,pH,EC of surface water in Baimamen river and Dashi river were -23. 31%,9. 65%,-23. 58% and 377.30%,19. 86%,378.60% of shallow groundwater respectively. The transitions of chemical type from surface water to shallow groundwater were different between two rivers,the Cl·SO4-Na·Ca type of surface water in Baimamen river was transformed to Cl·SO4-Mg·Ca type of shallow groundwater through Cl·SO4-Ca·Na type in permeable medium,whereas the Cl·SO4-Na and Cl·SO4-Na·Ca types of surface water in Dashi river was transformed to Cl·SO4-Mg·Ca type of shallow groundwater through Cl·SO4-Ca·Na and Cl·SO4-Mg·Na types in permeable medium. The concentrations of Na+,Mg2+,Ca2+,Cl-,SO2-4in Dashi river were higher than that in Baimamen river,and the differences of these ions weren't obvious between surface water and shallow groundwater in Baimamen river. With the increase of distance to Dashi river,the concentrations of Na+,Mg2+,Ca2+,Cl-,SO2-4 showed the trend from sharp decrease to slow decrease to stable along the direction from southwest to northeast. The degradation ratios of chemical components in gravel clay were direct proportion to surface water and inverse proportion to shallow groundwater respectively,and the orders of degradation ratios and unit ones were Na+>Cl->SO2-4>Ca2+>Mg2+. When the concentration differences of Na+,Cl-,SO2-4,Ca2+ and Mg2+between surface water and groundwater were less than 1 478. 71,1 325. 09,2 177.54,308.71 and 39.52 mg/L respectively,their unit degradation ratios were positively correlated with the concentration difference.

     

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