Aquifer parameter estimation in fractured-rock aquifers using a combination of hydraulic and tracer tests
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Riemann, Kornelius
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University of the Free State
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English: Water resources in South Africa are already being stressed and the country is slowly
becoming a water-scarce country. This presents a challenge to all water resource
managers to ensure that the basic water needs of every South African are met. A good
estimation of the aquifer parameters is the basis of managing groundwater resources
and understanding groundwater flow and transport processes. Because most of the
suitable groundwater resources in Southern Africa occur in fractured rock aquifers,
this thesis focuses on aquifer parameter estimation in fractured rock aquifers.
A guideline for aquifer parameter estimation in fractured rocks is derived, based on a
combination of hydraulic and tracer tests. The methods included account for the
unknown flow geometry and the resulting uncertainty by introducing the non-integer
flow dimension, which can be calculated from hydraulic and / or tracer test data. The
guideline includes:
o New methods for conducting and analysing tracer tests accounting for non-integer
flow dimension prevailing during the tests in fractured aquifers.
G A new method for estimating the kinematic porosity from single-well tracer tests.
• Description and comparison of the use of a three-dimensional numerical model for
aquifer parameter estimation .
• The software TRACER-PLAN to enable the geohydrologist to conduct effective
tracer tests. Depending on the type of test and the geological structure the test setup,
such as discharge rates, amount of tracer and duration of the test, can be
optimised.
• To simplify and unify the analysing procedure the software TRACER enables the
user to choose the correct analysing method depending on the test set-up and the
conceptual model of groundwater flow. Most of the analysing procedures
mentioned in this thesis are included.
While the approaches for estimating the hydraulic parameters from pumping test data
are commonly used methods, which are adapted to the situation in Southern Africa,
new approaches to analyse tracer test data are developed, which account in a more
general way for the unknown geometry.
A combination of hydraulic and tracer tests including analysing procedure is
proposed, which enables the hydrogeologist to estimate important hydraulic and
transport parameters from the results of one test rather than conducting different tests.
Depending on the purpose of the investigation, two types of combined tests are
developed. As minimum requirement conducting and analysing a single-well test is
suggested. If an observation borehole in the vicinity is available, a multiple-well test
should be conducted.
The proposed methods were used in case studies with different geological settings and
compared to each other. From the results of the case studies and theoretical models it
can be concluded that
G analytical methods for estimating the hydraulic properties of fractured rock
aquifers must be used with precaution, even when the correct conceptual model is
chosen,
I) for more accurate estimation numerical models, preferable a three-dimensional
numerical model, should be used,
Q the developed methods for analysing tracer test data, using the concept of
fractional flow dimension, will yield more accurate and normally higher values for
the flow velocity than the common methods, using the length of the tested section
and a flow dimension of2,
lil the developed methods for analysing tracer test data, using the concept of
fractional flow dimension, are applicable in different geological settings,
o the developed method for estimating the kinematic porosity from a single-well
tracer test is generally applicable in both the fracture zone and the matrix, but the
accuracy depends upon the correct conducting procedure,
e the validity and accuracy of the results depends mainly on the quality of the
conducting procedure and the correct conceptual model for the analysing
procedure.
The requirement for the analysing procedure can be summarised as:
• From the hydraulic test data the conceptual model should be derived, using
diagnostic plots and derivatives, as integrated in the software TRACER or in other
software programs such as FC and TPA
• The hydraulic data should be analysed applying the approach of non-integer flow
dimension, as integrated in the software TRACER.
• If necessary numerical models should be used for complete parameter estimation.
lil The tracer test data should be analysed, applying the approach of non-integer flow
dimension, as integrated in the software TRACER.
The effect of matrix diffusion on solute transport in fractured aquifers is immanent,
but no existing method is able to simulate it properly. Further research in estimating
the impact of matrix diffusion on the plume movement and in developing a suitable
method to simulate and quantify its effect is therefore strongly recommended.