Quantify the Pore Water Velocity Distribution by a Celerity Function

Shao, Wei; Su, Ye; Yang, Zongji; Ma, Xieyao; Langhammer, Jakub

doi:10.1155/2018/1054730

Cited by 5 publications

(4 citation statements)

References 77 publications

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“…MRT values are in general almost four times lower than 𝜏 𝑝𝑓 ones. A potential explanation for this difference is that MRT would reflect water celerity, i.e., the speed at which the water infiltration signal is transmitted through the vadose zone to the springs, while 𝜏 𝑝𝑓 relate to water velocity, i.e., the movement of water molecules (McDonnell and Beven, 2014;Scaini et al, 2017;van Verseveld et al, 2017;Shao et al, 2018;Worthington and Foley, 2021).…”

Section: Discussionmentioning

confidence: 99%

Short high-accuracy tritium data time series for assessing groundwater mean transit times in the vadose and saturated zones of the Luxembourg Sandstone aquifer

Laurent

Stewart

Morgenstern

et al. 2023

Preprint

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Abstract. While in the southern Hemisphere a single water sample can be sufficient for tritium-based young groundwater dating, several tritium measurements spanning over multiple years are still needed in the northern Hemisphere. Although it is advised to focus tritium-based groundwater age dating on sites where long chronicles of tritium data are available, we tested in this study the potential for short high-accuracy tritium data series (~4 years) to date groundwater from 35 springs draining the Luxembourg Sandstone aquifer (Central Western Europe). We determined groundwater mean transit times by using the lumped parameter model approach in a Monte Carlo uncertainty estimation framework to provide uncertainty ranges inherent to the low number of tritium data at hand and their related analytical errors. Our results show that unambiguous groundwater mean transit time assessments cannot be determined solely based on such recent short tritium time series, given that several ranges of mean transit times appeared theoretically possible. Nonetheless we succeeded in discriminating groundwater mean transit times in the vadose and saturated zones of the aquifer through a stepwise decision process guided with several supplementary data. Our findings are consistent with both the tritium measurements of individual springs and the hydrogeological context of the study area. We have been able to improve our understanding of the water transit times in the Luxembourg Sandstone aquifer. We particularly highlighted a horizontal-vertical water velocity anisotropy in the Luxembourg Sandstone - a key feature that deserves to be explored further.

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Section: Discussionmentioning

confidence: 99%

Short high-accuracy tritium data time series for assessing groundwater mean transit times in the vadose and saturated zones of the Luxembourg Sandstone aquifer

Laurent

Stewart

Morgenstern

et al. 2023

Preprint

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“…The coarse-textured gravelly soil gathered from the landslide site has a loose porous structure, which enables preferential flow to run through certain pathways [39]. In order to prove the occurrence of preferential flow in the soil, the relationship between soil density and porosity was verified via a special device (Figure 7(a)).…”

Section: Soil Porosity and Evidence For Preferential Flowmentioning

confidence: 99%

An Experimental Study on the Hydromechanical Behaviours of the Evolution of Postearthquake Landslide Deposits

et al. 2019

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In this study, a series of experiments of the full-scale physical model was employed to investigate the hydromechanical behaviours of the postearthquake landslide evolution, in forms of rill erosion and shallow headward failure on the rill bank slopes under unsaturated conditions. Soil-water characteristic curves (SWCC) were established using the Brooks-Corey (BC) and van Genuchten (VG) models. The stability of the shallow failure was then analyzed via a one-dimensional and unsaturated stability analysis model of the infinite slope. This measurement revealed that the preferential flow and the matrix flow coexisted when infiltration occurred and the VG model performs better in fitting the SWCC than the BC model. Consistent feedback between stability calculations and experimental observations enables the analysis of mechanisms of rill erosion and slope failure of postseismic landslide under the impact of preferential flow. Furthermore, the seepage-induced internal erosion phenomenon was observed in the experiment. This work thus provides a new perspective on the triggering mechanisms of debris flow during the postseismic period.

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“…Rasmussen et al (2000), in their investigation of unsaturated infiltration in a peat soil column, introduced the ratio of celerity to velocity (c/v) as the kinematic ratio (k). Researchers such as McDonnell and Beven (2014) and Shao et al (2018) had surveyed and compared celerity and velocity formulas for various flow environments, along with the c/v values.…”

Section: Introductionmentioning

confidence: 99%

“…They also noted that its value is independent of water content changes. Furthermore, c/v has been employed to identify flow types in streams (R.H. & E., 2021) and to predict the arrival time of conventional tracers, effectively the maximum velocity (Shao et al, 2018). Thus, the kinematic ratio c/v serves as a critical indicator for understanding the relationship between celerity and velocity.…”

Section: Introductionmentioning

confidence: 99%

A Study of Velocity-Celerity Relationships during Leakage from Soil Columns under Natural Rainfall Events

Liu,

XIE,

HUANG

et al. 2024

Preprint

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Understanding celerity, velocity, and their connections is crucial for unraveling subsurface hydrology and improving numerical models. This observational study investigated leakage in soil columns subjected to diverse treatments under natural rainfall, aiming to characterize celerity, velocity, and their relationships during leakage, and assess treatment effects on this relationship. Over three years with 13 rainfall events, velocities (0.00-0.26 m/h) and celerities (0.09-442.45 m/h) displayed significant disparities. A fixed kinematic ratio (k = 200) partitioned the celerity-velocity relationship into High-Ratio Area and Low-Ratio Area. Assuming liquid-phase changes affect mechanical wave celerity in a three-phase medium, these areas are hypothesized to correspond to dominant leakage-stage flow patterns: film flow and macropore flow. Both the High-Ratio Area and the Low-Ratio Area showed a strong adherence to a power function model, indicating a consistent non-linear celerity-velocity relationship across leakage scenarios. Treatments applied to soil columns influenced the distribution of celerity-velocity pairs and their interaction, demonstrating the potential to modify subsurface hydrological dynamics through targeted interventions.

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Quantify the Pore Water Velocity Distribution by a Celerity Function

Cited by 5 publications

References 77 publications

Short high-accuracy tritium data time series for assessing groundwater mean transit times in the vadose and saturated zones of the Luxembourg Sandstone aquifer

Short high-accuracy tritium data time series for assessing groundwater mean transit times in the vadose and saturated zones of the Luxembourg Sandstone aquifer

An Experimental Study on the Hydromechanical Behaviours of the Evolution of Postearthquake Landslide Deposits

A Study of Velocity-Celerity Relationships during Leakage from Soil Columns under Natural Rainfall Events

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