Radial groundwater flow to a finite diameter well in a leaky confined aquifer with a finite‐thickness skin

Yang, Shaw Yang; Yeh, Hund‐Der

doi:10.1002/hyp.7449

Cited by 21 publications

(9 citation statements)

References 33 publications

(46 reference statements)

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“…However, Eq. (23) may not work well when the unit and/or the order of magnitude of the parameters are different, and then the normalized sensitivity analysis was proposed as follows (Kabala, 2001;Yang and Yeh, 2009) …”

Section: Sensitivity Analysismentioning

confidence: 99%

Non-Darcian effect on slug test in a leaky confined aquifer

Wang

Zhan

Wang

2015

Journal of Hydrology

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Section: Sensitivity Analysismentioning

confidence: 99%

Non-Darcian effect on slug test in a leaky confined aquifer

Wang

Zhan

Wang

2015

Journal of Hydrology

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“…McCuen 1985proposed a sensitivity model of a dependent variable, which was normalized as (Kabala, 2001;Yang and Yeh, 2009)…”

Section: Sensitivity Analysismentioning

confidence: 99%

“…Actually, the above-mentioned assumptions used in the analytical and semi-analytical solutions can be relaxed in the numerical models, such as MODFLOW/MT3DMS (Harbaugh et al, 2000;Zheng and Wang, 1999), FEFLOW (Diersch, 2014), SUTRA (Voss, 1984), and STOMP (Nichols et al, 1997). Huang et al (2010), Sun (2016), Haggerty et al (1998), and Schroth and Istok (2006), respectively, employed such four software packages to carry out numerical simulations of SWPP tests, mainly involving advection, dispersion and first-order reaction.…”

Section: Introductionmentioning

confidence: 99%

Reactive transport with wellbore storages in a single-well push–pull test

Wang

Zhan

2019

Hydrol. Earth Syst. Sci.

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Abstract. Using the single-well push–pull (SWPP) test to determine the in situ biogeochemical reaction kinetics, a chase phase and a rest phase were recommended to increase the duration of reaction, besides the injection and extraction phases. In this study, we presented multi-species reactive models of the four-phase SWPP test considering the wellbore storages for both groundwater flow and solute transport and a finite aquifer hydraulic diffusivity, which were ignored in previous studies. The models of the wellbore storage for solute transport were proposed based on the mass balance, and the sensitivity analysis and uniqueness analysis were employed to investigate the assumptions used in previous studies on the parameter estimation. The results showed that ignoring it might produce great errors in the SWPP test. In the injection and chase phases, the influence of the wellbore storage increased with the decreasing aquifer hydraulic diffusivity. The peak values of the breakthrough curves (BTCs) increased with the increasing aquifer hydraulic diffusivity in the extraction phase, and the arrival time of the peak value became shorter with a greater aquifer hydraulic diffusivity. Meanwhile, the Robin condition performed well at the rest phase only when the chase concentration was zero and the solute in the injection phase was completely flushed out of the borehole into the aquifer. The Danckwerts condition was better than the Robin condition even when the chase concentration was not zero. The reaction parameters could be determined by directly best fitting the observed data when the nonlinear reactions were described by piece-wise linear functions, while such an approach might not work if one attempted to use nonlinear functions to describe such nonlinear reactions. The field application demonstrated that the new model of this study performed well in interpreting BTCs of a SWPP test.

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“…Their solution took into account the effects of finite well radius and the water stored inside the wellbore, which were neglected in the Theis equation. Theoretical models are developed for incorporating the effect of finite well radius [151,152] and both effects of finite well radius and wellbore storage into models [34,153]. Other issues of large-diameter wells such as seepage face, an application of discrete kernel approach and well function approximations are widely discussed in the literatures.…”

Section: Effects Of Finite Well Radius and Wellbore Storagementioning

confidence: 99%