第37卷第1期2018年2月
南昌工程学院学报
Journal of Nanchang Institute of Technology
Vol.37 No.1
Feb.2018
文章编号:1674 -0076(2018)01 -0012-05
南昌市主城区供水水文地质特征研究
郑芳文〃,刘晓1,黄诚、袁志辉\黄远金3,方正3
(1.南昌工程学院水利与生态工程学院,江西南昌330099 ;2.海南鹏越勘测设计研究有限公司,海南海口 570100;
3.江西省水利规划设计研究院,江西南昌330099)
摘要:研究区地处赣、抚河流冲积平原区,潜水为研究区开采主要含水层,潜水径流主要受地貌形态的控制。潜 水含水层的补给主要是河流侧向补给、大气降水的入渗及第三系红层越流补给,丰水期赣江、抚河水补给地下水为
主,枯水期以地下水往河流排泄为主;平水期,地表水与地下水交替补排。赣抚流域为典型的桂酸盐地区,地下水
水化学受硅酸盐、碳酸盐及人类活动影响,研究区粘土层较厚,湖水对地下水影响不大。人工开采是地下水的主要
排泄途径,近年来地下水水井不断减少,但以南钢为中心的降落漏斗最大可达10 m,影响范围较大。
关键词:地下水;供水;含水层;水化学;水文地质
中图分类号:P345 文献标识码:A
Hydrogeological features of water supply in city center of Nanchang City
ZHENG Fangwen12,LIU Xiao1,HUANG Cheng1,YUAN Zhihui1,HUANG Yuanjin3,FANG Zheng3
(1. School of Hydraulic and Ecological Engineering, Nanchang Institute of Technology, Nanchang 330099, China ;
2. Hainan Pengyue Inverstigation and Design Research Co. ,Ltd. ,Haikou 570100,China;
3. Jiangxi Provincial Institute of Water Conservancy Planning and Design,Nanchang 330029,China)
Abstract : The study area is located at the alluvial plain area of Ganjiang River and Fuhe River. The phreatic water is the main aquifer for the study area, and the phreatic runoff is mainly controlled by the topography. The recharge of phreatic aqui-
fer is mainly the lateral recharge of the river, infiltration of atmospheric precipitation and the recharge of tertiary system sandstone. During the flood period,Ganjiang River and Fuhe River recharge groundwater,and the groundwater discharges in-
to the two rivers during the dry season. And the surface water and groundwater recharge and discharge alternately in their normal level. Ganjiang and Fuhe basin is a typical silicate area, and groundwater chemistry is affected by silicate, carbonate and human activities. The clay layer in the study area is thicker,and the lake water has little influence on groundwater. Arti-
ficial groundwater exploitation is the major excretion pathway, and in recent years the groundwater wells continue to de-
crease. The cone of depressions centering around Nangang Factory is up to 10m,which influences a large sphere.
Key words : groundwater ; water supply; aquifer ; hydrochemistry ; hydrogeology
南昌市属亚热带湿润气候,多年平均日气温17.5 t,南昌市雨量充沛,多年平均降雨量为1645 mm,4 - 6月份降雨量占年降雨量的51.3 %,11月至次年1月降雨量占年降雨量的9.6 %。南昌市位于的赣抚冲积 平原,浅部第四系孔隙水分布广泛,且构成一个统一的含水层,区域上可概化为一个广阔的含水层,由于南昌 市开采地下水,使得在市区形成了一个较大的地下水降落漏斗。本次研究范围为南昌市主城区,为赣江与抚 河包围地带,主要为城区开采地下水降落漏斗界限区域,如图1所示。赣江贯穿江西省南北,全长751 km,流域面积达8.34 x104km2,约占鄱阳湖流域总面积的50 %,年平均人鄱阳湖水量约6.60 x m3[1];抚河 位于江西省东部,主河道长348 km,流域面积1_ 65 x104km2,约占鄱阳湖流域总面积的10%,流域多年平均 径流量1.26 x101()m3[2]。赣江流域河流水化学受控于中亚热带湿润季风气候条件下,碳酸盐、硅酸盐化学 风化和人为活动的共同影响,以快速碳酸盐和典型硅酸盐的化学风化共同侵蚀作用区别于其他地区河流,枯 水期和丰水期样品中,阳离子含量最主要为Na+和Ca2+,其次为M g2+、K+ ;阴离子占主导地位为C r和收稿曰期:2017 -08 -09
基金项目:江西省自然科学基金资助项目(20171BAB213027)
作者简介:郑芳文(1982 -),男,博士生,讲师,281055204@https://www.doczj.com/doc/fc6523862.html,.