A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Comparison of Analytical Solutions to Evaluate Aquifer Response to Arbitrary Stream Stage
Groundwater table response to arbitrarily varied stream stage is a practical engineering issue related to stream-aquifer interaction processes. A one-dimensional (1D) linear Boussinesq equation is invariably used in the interpretation. Previous studies have emphasized the employment of convolution integration and pulse or function fitting methods to solve this problem. Consequently, complicated mathematical derivations and numerical calculations are involved during an analysis. In this paper, we transformed the previously published solutions into an easily solved formation to investigate this problem. Then the solution is solved based on the trapezoidal method and applied in cases. The solution fits favorably with the previous classic solutions in the simulations of groundwater table responses to sinusoidal, linear, and unit step rise varied stream stages. This approach was also applied to interpret groundwater table fluctuations induced by typical flood waves and field measured stream stage fluctuations. The developed approach performs well compared with those solved numerically by function fitting methods and modular finite-difference flow model (MODFLOW). This analytical solution potentially provides a rapid and simple way to estimate aquifer responses to any type of stream stage variation.
Comparison of Analytical Solutions to Evaluate Aquifer Response to Arbitrary Stream Stage
Groundwater table response to arbitrarily varied stream stage is a practical engineering issue related to stream-aquifer interaction processes. A one-dimensional (1D) linear Boussinesq equation is invariably used in the interpretation. Previous studies have emphasized the employment of convolution integration and pulse or function fitting methods to solve this problem. Consequently, complicated mathematical derivations and numerical calculations are involved during an analysis. In this paper, we transformed the previously published solutions into an easily solved formation to investigate this problem. Then the solution is solved based on the trapezoidal method and applied in cases. The solution fits favorably with the previous classic solutions in the simulations of groundwater table responses to sinusoidal, linear, and unit step rise varied stream stages. This approach was also applied to interpret groundwater table fluctuations induced by typical flood waves and field measured stream stage fluctuations. The developed approach performs well compared with those solved numerically by function fitting methods and modular finite-difference flow model (MODFLOW). This analytical solution potentially provides a rapid and simple way to estimate aquifer responses to any type of stream stage variation.
Comparison of Analytical Solutions to Evaluate Aquifer Response to Arbitrary Stream Stage
Dong, Linyao (author) / Shimada, Jun (author) / Fu, Congsheng (author) / Kagabu, Makoto (author)
Journal of Hydrologic Engineering ; 19 ; 133-139
2013-01-05
72014-01-01 pages
Article (Journal)
Electronic Resource
Unknown
Comparison of Analytical Solutions to Evaluate Aquifer Response to Arbitrary Stream Stage
| British Library Online Contents | 2014
Comparison of Analytical Solutions to Evaluate Aquifer Response to Arbitrary Stream Stage
| Online Contents | 2014
Aquifer Response to Sinusoidal or Arbitrary Stage of Semipervious Stream
| British Library Online Contents | 2004
Aquifer Response to Sinusoidal or Arbitrary Stage of Semipervious Stream
| Online Contents | 2004
Ramp Kernels for Aquifer Responses to Arbitrary Stream Stage
| British Library Online Contents | 2004