18 research outputs found
Measuring Water Transmission Parameters in Vadose Zone Using Ponded Infiltration Techniques
The flow of soil water is characterized by water transmission parameters, field-saturated hydraulic conductivity, matric flux potential and sorptivity. Soil water flow is, in turn, the primary mechanism by which soil contaminants, such as excess plant nutrient, bacteria, viruses, salts, and industrial chemicals are transported. Consequently, knowledge of soil water transmission parameters is essential for understanding, preventing and remediating the contamination of soil water and ground water. This paper describes steady-state and transient methods for obtaining soil water transmission parameters from ponded infiltration under constant head and falling head conditions in surface rings and shallow auger holes. Also discussed are the conditions under which the various methods are most appropriate
Self-diffusion in dense granular shear flows
Diffusivity is a key quantity in describing velocity fluctuations in granular
materials. These fluctuations are the basis of many thermodynamic and
hydrodynamic models which aim to provide a statistical description of granular
systems. We present experimental results on diffusivity in dense, granular
shear in a 2D Couette geometry. We find that self-diffusivities are
proportional to the local shear rate with diffusivities along the mean flow
approximately twice as large as those in the perpendicular direction. The
magnitude of the diffusivity is D \approx \dot\gamma a^2 where a is the
particle radius. However, the gradient in shear rate, coupling to the mean
flow, and drag at the moving boundary lead to particle displacements that can
appear sub- or super-diffusive. In particular, diffusion appears superdiffusive
along the mean flow direction due to Taylor dispersion effects and subdiffusive
along the perpendicular direction due to the gradient in shear rate. The
anisotropic force network leads to an additional anisotropy in the diffusivity
that is a property of dense systems with no obvious analog in rapid flows.
Specifically, the diffusivity is supressed along the direction of the strong
force network. A simple random walk simulation reproduces the key features of
the data, such as the apparent superdiffusive and subdiffusive behavior arising
from the mean flow, confirming the underlying diffusive motion. The additional
anisotropy is not observed in the simulation since the strong force network is
not included. Examples of correlated motion, such as transient vortices, and
Levy flights are also observed. Although correlated motion creates velocity
fields qualitatively different from Brownian motion and can introduce
non-diffusive effects, on average the system appears simply diffusive.Comment: 13 pages, 20 figures (accepted to Phys. Rev. E
Measuring Water Transmission Parameters in Vadose Zone Using Ponded Infiltration Techniques
The flow of soil water is characterized by water transmission parameters, field-saturated hydraulic conductivity, matric flux potential and sorptivity. Soil water flow is, in turn, the primary mechanism by which soil contaminants, such as excess plant nutrient, bacteria, viruses, salts, and industrial chemicals are transported. Consequently, knowledge of soil water transmission parameters is essential for understanding, preventing and remediating the contamination of soil water and ground water. This paper describes steady-state and transient methods for obtaining soil water transmission parameters from ponded infiltration under constant head and falling head conditions in surface rings and shallow auger holes. Also discussed are the conditions under which the various methods are most appropriate
Comparação de métodos de campo para determinação da velocidade de infiltração básica
Vários são os métodos utilizados para determinar a velocidade de infiltração básica (VIB) do solo. Todavia, para utilização dos resultados, é importante conhecer como cada método interage com os atributos do solo. Assim, o objetivo deste trabalho foi comparar quatro métodos de determinação da VIB, considerando o tipo de solo sob sistema plantio direto. Foram realizados três experimentos em solos do estado de São Paulo, em Campinas, Campos Novos Paulista e Pindorama, em Latossolo textura argilosa, Latossolo textura média e Argissolo textura arenosa/média, respectivamente. As determinações foram feitas de setembro a novembro de 2000. Utilizaram-se um infiltrômetro de aspersão, um permeâmetro, um infiltrômetro de tensão e um infiltrômetro de pressão para determinação da VIB. Verificou-se que os métodos comportaram-se diferentemente em relação ao tipo de solo, tendo sido os menores valores de VIB determinados com o infiltrômetro de aspersão. Verificou-se que, no infiltrômetro de pressão e no permeâmetro, o movimento de água foi governado pela estrutura do solo e, no infiltrômetro de aspersão, onde é considerado o impacto das gotas de chuva, o processo de infiltração foi regido principalmente pela taxa de cobertura do solo e pelas suas características granulométricas