煤层气采出水对大佛寺井区地下水水质的影响研究
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摘要
随着煤层气资源的不断开采,大量高矿化度的采出水如处理不当,会对地下水层、河流以及农田造成严重的污染。本文对大佛寺井区的采出水水样和地下水的不同采样点的多个水样进行水质评价分析,研究大佛寺井区的采出水对周围水质的影响,为大佛寺井区的环境影响评价提供依据。结果表明,大佛寺井区采出水是高矿化度、高盐度的水,矿化度最高为17097.5mg·L-1,但是地下水水质的矿化度较小,多项指标满足《地下水质量标准》中的Ⅲ级及以上要求,说明开采完成后,采出水对地下水质不会产生明显的影响。
With the continuous exploitation of coal bed methane, the improper treatment of a large number of high-mineralized produced water would cause serious pollution to groundwater, rivers and farmland. In this paper, water quality evaluation and analysis were carried out by collecting multiple water samples from different sampling points of produced water and groundwater in Dafosi well area, and the influence of produced water in Dafosi well area on surrounding water quality was studied to provide a basis for environmental impact assessment of Dafosi well area. The results showed that the water quality in the mining stage of Dafosi well area was high salinity and high salinity produced water, the highest degree of mineralization was 17097.5 mg/L, but the salinity of groundwater quality was small, and many indicators met the groundwater Grade III and above requirements in the quality standards indicated that the produced water did not have a significant impact on the quality of the groundwater after the completion of the mining.
With the continuous exploitation of coal bed methane, the improper treatment of a large number of high-mineralized produced water would cause serious pollution to groundwater, rivers and farmland. In this paper, water quality evaluation and analysis were carried out by collecting multiple water samples from different sampling points of produced water and groundwater in Dafosi well area, and the influence of produced water in Dafosi well area on surrounding water quality was studied to provide a basis for environmental impact assessment of Dafosi well area. The results showed that the water quality in the mining stage of Dafosi well area was high salinity and high salinity produced water, the highest degree of mineralization was 17097.5 mg/L, but the salinity of groundwater quality was small, and many indicators met the groundwater Grade III and above requirements in the quality standards indicated that the produced water did not have a significant impact on the quality of the groundwater after the completion of the mining.
引文
[1]张旭峰.陕西彬长矿区低阶煤地面煤层气开发方式[J].资源与产业,2018,20(1):34-38.
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[3]严康,白怀东,刘厚宁,等.大佛寺井田煤储层孔隙特征[J].西部探矿工程,2014,26(5):147-150.
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[6]王志超,邓春苗,卢巍,等.晋城煤层气井采出水水质分析[J].合作经济与科技,2008(21):32-33.
[7]刘艺芳,武强,赵昕楠.内蒙古东胜煤田矿井水水质特征与水环境评价[J].洁净煤技术,2013,19(1):101-106.
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[9]王志超,邓春苗,卢巍,等.晋城煤层气井采出水的水质分析[J].煤炭科学技术,2009,37(1):122-124.
[10]钱声源,张乾坤,陈从建,等.焦作地区地下水水化学特征分析及水质评价研究[J/OL].长江科学院院报,2019-04-04:1-8.
[11]秦文婧,宋献方,谷洪彪.基于层次聚类法的柳江煤矿对地下水水质影响分析[J].水文地质工程地质,2018,45(3):30-39.
[12]毛建设,綦晓东,王予新.山西某煤层气田采出水水质分析[J].中国煤层气,2014,11(5):44-46.
[13]郝宁,康静文,张凌云.沁水盆地郑庄区块煤层气开发对地下水环境的影响分析[J].太原理工大学学报,2013,44(4):427-430.
[14]梁雄兵,程胜高,宋立军.煤层气勘探开发中的水污染分析及防治对策[J].环境科学与技术,2006(1):50-51.
[15]GB/T 5750-2006,生活饮用水标准检验法[S].
[16]GB/T 14848-2017,地下水质量标准[S].
[2]李倩.大佛寺煤层气直井产量对含气量的反馈研究[D].西安:西安科技大学,2018.
[3]严康,白怀东,刘厚宁,等.大佛寺井田煤储层孔隙特征[J].西部探矿工程,2014,26(5):147-150.
[4]刘哲,曹石榴.大佛寺井田煤储层孔隙特征研究[J].中国矿业,2018,27(s2):70-73.
[5]戴楠.大佛寺煤层气水平井降压与产气的耦合分析[D].西安:西安科技大学,2018.
[6]王志超,邓春苗,卢巍,等.晋城煤层气井采出水水质分析[J].合作经济与科技,2008(21):32-33.
[7]刘艺芳,武强,赵昕楠.内蒙古东胜煤田矿井水水质特征与水环境评价[J].洁净煤技术,2013,19(1):101-106.
[8]张云霞.煤层气井排出水的水质研究[J].能源与节能,2011(7):13.
[9]王志超,邓春苗,卢巍,等.晋城煤层气井采出水的水质分析[J].煤炭科学技术,2009,37(1):122-124.
[10]钱声源,张乾坤,陈从建,等.焦作地区地下水水化学特征分析及水质评价研究[J/OL].长江科学院院报,2019-04-04:1-8.
[11]秦文婧,宋献方,谷洪彪.基于层次聚类法的柳江煤矿对地下水水质影响分析[J].水文地质工程地质,2018,45(3):30-39.
[12]毛建设,綦晓东,王予新.山西某煤层气田采出水水质分析[J].中国煤层气,2014,11(5):44-46.
[13]郝宁,康静文,张凌云.沁水盆地郑庄区块煤层气开发对地下水环境的影响分析[J].太原理工大学学报,2013,44(4):427-430.
[14]梁雄兵,程胜高,宋立军.煤层气勘探开发中的水污染分析及防治对策[J].环境科学与技术,2006(1):50-51.
[15]GB/T 5750-2006,生活饮用水标准检验法[S].
[16]GB/T 14848-2017,地下水质量标准[S].
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