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1.
Ground Water ; 47(2): 259-70, 2009.
Article in English | MEDLINE | ID: mdl-19178572

ABSTRACT

The importance of estimating spatially variable aquifer parameters such as transmissivity is widely recognized for studies in resource evaluation and contaminant transport. A useful approach for mapping such parameters is inverse modeling of data from series of pumping tests, that is, via hydraulic tomography. This inversion of field hydraulic tomographic data requires development of numerical forward models that can accurately represent test conditions while maintaining computational efficiency. One issue this presents is specification of boundary and initial conditions, whose location, type, and value may be poorly constrained. To circumvent this issue when modeling unconfined steady-state pumping tests, we present a strategy that analyzes field data using a potential difference method and that uses dipole pumping tests as the aquifer stimulation. By using our potential difference approach, which is similar to modeling drawdown in confined settings, we remove the need for specifying poorly known boundary condition values and natural source/sink terms within the problem domain. Dipole pumping tests are complementary to this strategy in that they can be more realistically modeled than single-well tests due to their conservative nature, quick achievement of steady state, and the insensitivity of near-field response to far-field boundary conditions. After developing the mathematical theory, our approach is first validated through a synthetic example. We then apply our method to the inversion of data from a field campaign at the Boise Hydrogeophysical Research Site. Results from inversion of nine pumping tests show expected geologic features, and uncertainty bounds indicate that hydraulic conductivity is well constrained within the central site area.


Subject(s)
Tomography/methods , Water Movements , Environmental Monitoring/methods , Models, Theoretical
2.
Ground Water ; 47(2): 213-27, 2009.
Article in English | MEDLINE | ID: mdl-19016893

ABSTRACT

Ground water flow associated with pumping and injection tests generates self-potential signals that can be measured at the ground surface and used to estimate the pattern of ground water flow at depth. We propose an inversion of the self-potential signals that accounts for the heterogeneous nature of the aquifer and a relationship between the electrical resistivity and the streaming current coupling coefficient. We recast the inversion of the self-potential data into a Bayesian framework. Synthetic tests are performed showing the advantage in using self-potential signals in addition to in situ measurements of the potentiometric levels to reconstruct the shape of the water table. This methodology is applied to a new data set from a series of coordinated hydraulic tomography, self-potential, and electrical resistivity tomography experiments performed at the Boise Hydrogeophysical Research Site, Idaho. In particular, we examine one of the dipole hydraulic tests and its reciprocal to show the sensitivity of the self-potential signals to variations of the potentiometric levels under steady-state conditions. However, because of the high pumping rate, the response was also influenced by the Reynolds number, especially near the pumping well for a given test. Ground water flow in the inertial laminar flow regime is responsible for nonlinearity that is not yet accounted for in self-potential tomography. Numerical modeling addresses the sensitivity of the self-potential response to this problem.


Subject(s)
Bayes Theorem , Water Movements , Models, Theoretical
3.
J Asthma Res ; 12(4): 199-206, 1975 Jun.
Article in English | MEDLINE | ID: mdl-1219014

ABSTRACT

With the help of three illustrative cases, all of whom died during an acute asthmatic attack, it is proposed that patients with severe psychopathology who also have asthma are particularly susceptible to the more serious complications of asthma. This is related to the circular reactions to anxiety and the patient's incapacity to cope with it. Often these patients are either unusually sensitive to the pharmacological agents used in the medical regime, or they overmedicate themselves. At the same time the reactions of the family and medical staff tend to increase anxiety in these patients. This finally leads to psychological decompensation, making medical treatment extremely difficult. Some therapeutic interventions in dealing with this problem have been suggested. These include the development of an asthma team which can provide supportive psychotherapy to high risk patients.


Subject(s)
Acute Disease , Adolescent , Female , Humans , Mother-Child Relations , Panic , Psychopathology
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