The impact of ground water pumping on nearby streams is often estimated using analytic models of the interconnected stream-aquifer system. A common assumption of these models is that the pumped aquifer is underlain by an impermeable formation. A new semianalytic solution for drawdown and stream depletion has been developed that does not require this assumption. This solution shows that pumping-induced flow (leakage) through an underlying aquitard can be an important recharge mechanism in many stream-aquifer systems. The relative importance of this source of recharge increases with the distance between the pumping well and the stream. The distance at which leakage becomes the primary component of the pumping-induced recharge depends on the s...
Commonly used methods for estimation of pumping-induced stream depletion are based on a series of id...
This dissertation is composed of three parts of contributions. Systems of a fully penetrating pumpin...
Reprint from Transactions, American Geophysical Union, V. 36, pages 345-346, 1955
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
Commonly used analytical approaches for estimation of pumping-induced drawdown and stream depletion ...
Existing analytical models for evaluating stream depletion by wells in alluvial aquifers are based o...
AbstractAn analytical solution of drawdown caused by pumping was developed for an aquifer partially ...
Existing analytical models for evaluating stream depletion by wells in alluvial aquifers are based o...
Current groundwater models utilize a constant head (Dirichlet) boundary condition which assumes stre...
This is the published version. Copyright American Geophysical Union[1] A new approach is presented f...
This is the published version. Copyright American Geophysical Union[1] A new approach is presented f...
Field observation and numerical simulations were carried out to evaluate the hydraulic relationship ...
Field observation and numerical simulations were carried out to evaluate the hydraulic relationship ...
Commonly used methods for estimation of pumping-induced stream depletion are based on a series of id...
This dissertation is composed of three parts of contributions. Systems of a fully penetrating pumpin...
Reprint from Transactions, American Geophysical Union, V. 36, pages 345-346, 1955
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
The impact of ground water pumping on nearby streams is often estimated using analytic models of the...
Commonly used analytical approaches for estimation of pumping-induced drawdown and stream depletion ...
Existing analytical models for evaluating stream depletion by wells in alluvial aquifers are based o...
AbstractAn analytical solution of drawdown caused by pumping was developed for an aquifer partially ...
Existing analytical models for evaluating stream depletion by wells in alluvial aquifers are based o...
Current groundwater models utilize a constant head (Dirichlet) boundary condition which assumes stre...
This is the published version. Copyright American Geophysical Union[1] A new approach is presented f...
This is the published version. Copyright American Geophysical Union[1] A new approach is presented f...
Field observation and numerical simulations were carried out to evaluate the hydraulic relationship ...
Field observation and numerical simulations were carried out to evaluate the hydraulic relationship ...
Commonly used methods for estimation of pumping-induced stream depletion are based on a series of id...
This dissertation is composed of three parts of contributions. Systems of a fully penetrating pumpin...
Reprint from Transactions, American Geophysical Union, V. 36, pages 345-346, 1955