Difference between revisions of "Transport parameters and contaminant data"

Transport parameters

Advective transport happens mainly with the groundwater flow. However, to describe the transport of a substance in a fractured limestone aquifer properly, additional parameters are required. Important transport parameters that influence the migration of a substance are

• diffusion coefficient of the substance in the limestone (often estimated as molecular diffusion coefficient times the tortuosity or porosity of the limestone
• sorption coefficient
• limestone porosity

Tracer tests are very useful to analyze the transport behavior in a limestone aquifer. Different types of tracer tests can be distinguished

• push-pull tracer tests, where a tracer is injected and monitored in the same borehole
• tracer tests with an injection well and one or several observation wells
• forced-gradient (with pumping) or natural gradient tracer tests

In the limestone project, a forced-gradient tracer test with several injection wells and a central pumping well for tracer monitoring was conducted. Details are described in the following report:

• Report about the pumping and tracer test at Akacievej (PDF).

Furthermore, measurements from core material can be used to determine the porosity and hydraulic conductivity of a limestone sample, for example using gas permeameter and porosimeter (Poroperm test).

Contaminant data

Fig.1: Extraction of samples from a borehole core for the lab analysis of PCE and TCE.

Different sampling and monitoring techniques to determine the depth-discrete contaminant distribution in boreholes have been developed. Depth-discrete sampling is important, since due to a very heterogeneous nature of the aquifer, the concentration can vary strongly over depth. For the planning of a site remediation it is important to know the vertical extent and the location of the contamination, so the remediation system can be planned most effectively.

One way to obtain depth-discrete concentrations is to analyze small samples from borehole cores for the sorbed contaminant concentration. An example is shown in Figure 1. However, limestone has a very varying hardness and may be unstable. Soft limestone material is often lost when taking a borehole core. As a consequence, the core analysis is difficult and may lead to wrong results.

The following list gives an overview of some other useful sampling methods in wells in limestone aquifers:

• Snap samplers
• Diffusion cells
• Bladder pump
• Separation pumping with a heat pulse probe

The following ones require open (unscreened) boreholes:

• NAPL-FLUTe (detection of DNAPL)
• FACT-FLUTe (dissolved concentrations)
• Passive flux meters for fractured aquifers
• etc.

The following report gives a comparison of some of these sampling methods.

• Comparison of depth-discrete sampling methods and contaminant measurements at Akacievej (PDF)

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