Particle transport in unsaturated fractured chalk under arid conditions

Particle transport in unsaturated fractured chalk under arid conditions

A series of field and laboratory experiments were conducted to study the mechanisms of particle detachment and transport from fractures in vadose chalk. Experiments of intermittent flow events along fracture surfaces were carried out in the laboratory. In the field, water was percolated from land su...

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Bibliographic Details
Published in:Journal of contaminant hydrology Vol. 56; no. 1; pp. 117 - 136
Main Authors: Weisbrod, Noam, Dahan, Ofer, Adar, Eilon M
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-05-2002
Elsevier Science
Subjects:
Arid zone
Calcium Carbonate - chemistry
Colloids
Contaminant transport
Desiccation
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Fractures
groundwater contamination
Hydrogeology
Hydrology. Hydrogeology
Particle Size
Particles
Pollution, environment geology
soil transport processes
Surface Properties
unsaturated conditions
unsaturated flow
Vadose zone
Contaminant transport
Fractures
Vadose zone
Arid zone
Colloids
Particles
experimental studies
solutes
salt
carbonate rocks
colloidal materials
dissolution
ground water
effluents
SEM data
arid environment
concentration
transport
pollution
chemically precipitated rocks
evaporites
unsaturated zone
sedimentary rocks
percolation
chalk
saturated zone
particles
fractures
laboratory studies
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Summary:A series of field and laboratory experiments were conducted to study the mechanisms of particle detachment and transport from fractures in vadose chalk. Experiments of intermittent flow events along fracture surfaces were carried out in the laboratory. In the field, water was percolated from land surface via a discrete fracture into a compartmental sampler installed inside a horizontal corehole located 1 m below the surface. The mass, size distribution, and composition of the particles drained from the fracture voids were examined along with flow rates and salt dissolution. Two boreholes penetrating the underlying saturated zone were sampled and analyzed for colloidal concentration and composition. Most of the particle and solute release at the drained effluents occurred during the first several hours of flow, but erratic pulses of particles were still observed after long periods of time. Most of the detached particles had a mean diameter of >2 μm, while the mobile colloidal phase in the groundwater had a mean diameter of ∼1 μm. Mineralogical composition of the groundwater colloids and the particles detached from the upper vadose fracture were similar. Laboratory observations demonstrated the importance of the existence of a coating layer, made of weathered particles and salts, on particle detachment. The results of this study suggest that: (1) particle detachment causes flow-rate variability in the unsaturated fracture; (2) the mechanisms of particle detachment and salt dissolution within the fracture are linked; and (3) although most of the detached particles are large and likely to accumulate inside fractures, some colloidal particles also eroded from the fracture void and are likely to be transported to the groundwater.
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ISSN:0169-7722
1873-6009
DOI:10.1016/S0169-7722(01)00199-1