水文
水文
수문
Journal of China Hydrology
2015年
5期
54-60,53
,共8页
周志超%李杰彪%苏锐%郭永海%赵宏刚%王彦江%季瑞利%张明
週誌超%李傑彪%囌銳%郭永海%趙宏剛%王彥江%季瑞利%張明
주지초%리걸표%소예%곽영해%조굉강%왕언강%계서리%장명
地下水补给%地下水动态%双栓塞水文地质试验%降水入渗系数
地下水補給%地下水動態%雙栓塞水文地質試驗%降水入滲繫數
지하수보급%지하수동태%쌍전새수문지질시험%강수입삼계수
groundwater recharge%groundwater regime%hydrogeological test with double packer%infiltration coefficients of precipitation
针对川北山丘区地下水资源和污染防护研究中地下水补给难以定量等问题,以川北典型山丘区平溪河北岸的山丘区子流域为研究对象,布设监测孔并对其地下水的水位和水温开展动态监测,并基于大气压监测数据校正地下水监测水位,分析了山丘区地下水水位及水温的年内动态变化特征;采用渗水试验和分段双栓塞水文地质试验获取含水层空间渗透系数;基于达西断面法定量计算了研究区内观测断面的地下水径流补给量,并建立了月降雨量与降水入渗系数的函数关系,结果显示:研究区多年平均大气降水入渗补给量为16.61mm,多年平均降水入渗系数为0.0182;月降雨量与降水入渗系数呈幂函数关系;此成果可为研究区地下水资源、地下水防污性能评价及地下水数值模拟等研究提供重要依据。
針對川北山丘區地下水資源和汙染防護研究中地下水補給難以定量等問題,以川北典型山丘區平溪河北岸的山丘區子流域為研究對象,佈設鑑測孔併對其地下水的水位和水溫開展動態鑑測,併基于大氣壓鑑測數據校正地下水鑑測水位,分析瞭山丘區地下水水位及水溫的年內動態變化特徵;採用滲水試驗和分段雙栓塞水文地質試驗穫取含水層空間滲透繫數;基于達西斷麵法定量計算瞭研究區內觀測斷麵的地下水徑流補給量,併建立瞭月降雨量與降水入滲繫數的函數關繫,結果顯示:研究區多年平均大氣降水入滲補給量為16.61mm,多年平均降水入滲繫數為0.0182;月降雨量與降水入滲繫數呈冪函數關繫;此成果可為研究區地下水資源、地下水防汙性能評價及地下水數值模擬等研究提供重要依據。
침대천북산구구지하수자원화오염방호연구중지하수보급난이정량등문제,이천북전형산구구평계하북안적산구구자류역위연구대상,포설감측공병대기지하수적수위화수온개전동태감측,병기우대기압감측수거교정지하수감측수위,분석료산구구지하수수위급수온적년내동태변화특정;채용삼수시험화분단쌍전새수문지질시험획취함수층공간삼투계수;기우체서단면법정량계산료연구구내관측단면적지하수경류보급량,병건립료월강우량여강수입삼계수적함수관계,결과현시:연구구다년평균대기강수입삼보급량위16.61mm,다년평균강수입삼계수위0.0182;월강우량여강수입삼계수정멱함수관계;차성과가위연구구지하수자원、지하수방오성능평개급지하수수치모의등연구제공중요의거。
It’s difficult to quantify groundwater recharge for the groundwater resources and pollution prevention study in the mountain area in North Sichuan Province. This paper studied on the representative mountain hydrographic sub-basin in the north bank of Pingxihe river, based on the route monitoring borehole, and carried out dynamic monitoring of groundwater level and temperature, the water table of the groundwater monitoring data were corrected by atmospheric pressure monitoring data, the variation characteristics of groundwater level and temperature during the year were analysed, and the space permeability coefficients of aquifer were obtained by seepage test and hydraulic test with double packer. Based on the law of Darcy Setion, the quantitative groundwater recharge of the section was calculated; the function of momthly rainfall and precipitation infiltration coefficient were established. The results show that the annual average precipitation recharge of the study area is 16.61mm/a, and the average precipitation infiltration coefficient is 0.0182; with a power function of the monthly rainfall and precipitation infiltration coefficient.