Influence of time-dependent ground surface flux on aquifer recharge with a vadose zone injection well

Qi, Cuiting1; Zhan, Hongbin1; Liang, Xiuyu2; Ma, Chong3

2020

10.1016/j.jhydrol.2020.124739

JOURNAL OF HYDROLOGY   影响因子和分区

0022-1694

1879-2707

Vadose zone well (VZW) injection is an effective method for aquifer recharge in semiarid and arid regions where groundwater table is deep or sufficiently permeable soils and/or sufficiently large land areas for surface infiltration are not available. Several analytical and numerical models have been developed for the injection well in the vadose zone. However, those models usually ignore the ground surface flux (GSF) generated by infiltration or evapotranspiration, which may cause errors and hinder the success of artificial recharge and groundwater management. This study takes GSF generated by these two processes into consideration with the purpose of understanding their influences on the hydraulic responses and recharge efficiency. An innovative mathematical model is established based on a three-dimensional (3D) governing equation for saturated flow and a linearized 3D Richards’ equation for unsaturated flow. The Laplace-Hankel transforms are applied to derive solutions for the hydraulic head increments and recharge rate. The solutions are tested by a finite-element numerical model developed using COMSOL Multiphysics. The obtained solutions are utilized to assess the influences of time-dependent GSF generated by infiltration or evapotranspiration. The magnitude of these influences depends on unsaturated and saturated aquifer properties and the value of GSF. The impacts of three important properties are investigated: the constitutive exponent of the unsaturated zone ω, the specific yield Sy, and the hydraulic conductivity anisotropy KD=[Formula presented]. Smaller values of dimensionless constitutive exponent ωD and dimensionless specific yield SyD lead to larger changes of hydraulic head increments in both unsaturated zone (uD) and saturated zone (sD) when GSF is the same. A small value of KD can delay the changes of uD and sD, but the value of KD does not affect the final values of uD and sD. Larger values of GSF generated by surface infiltration lead to larger increases of uD and sD; larger absolute values of GSF generated by evapotranspiration lead to larger decreases of uD and sD. The proposed semi-analytical solutions can be used to improve the feasibility and efficiency of artificial recharge in semiarid and arid regions.
© 2020 Elsevier B.V.

Vadose zone injection Ground surface flux Surface infiltration Evapotranspiration Coupled unsaturated-saturated zone

EI ; SCI

英语

其他

Engineering ; Geology ; Water Resources

Engineering, Civil ; Geosciences, Multidisciplinary ; Water Resources

WOS:000527390200060

Elsevier B.V.

20200908235916

Aquifers ; Arid regions ; Efficiency ; Evapotranspiration ; Groundwater resources ; Injection (oil wells) ; Laplace transforms ; Numerical models ; Recharging (underground waters) ; Surface measurement ; Water management ; Wells

Meteorology:443 ; Water Resources:444 ; Groundwater:444.2 ; Oil Field Production Operations:511.1 ; Production Engineering:913.1 ; Mathematics:921 ; Mathematical Transformations:921.3 ; Mechanical Variables Measurements:943.2

ENGINEERING

EV Compendex

1.Department of Geology and Geophysics, Texas A&M University, College Station; TX; 77843-3115, United States
2.Guangdong Provincial Key Laboratory of Soil and Groundwater Pollution Control, School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen; 518055, China
3.School of Mathematics and Physics, China University of Geosciences, 388 Lumo Road, Wuhan; 430074, China

Qi, Cuiting,Zhan, Hongbin,Liang, Xiuyu,et al. Influence of time-dependent ground surface flux on aquifer recharge with a vadose zone injection well[J]. JOURNAL OF HYDROLOGY,2020,584.

Qi, Cuiting,Zhan, Hongbin,Liang, Xiuyu,&Ma, Chong.(2020).Influence of time-dependent ground surface flux on aquifer recharge with a vadose zone injection well.JOURNAL OF HYDROLOGY,584.

Qi, Cuiting,et al."Influence of time-dependent ground surface flux on aquifer recharge with a vadose zone injection well".JOURNAL OF HYDROLOGY 584(2020).