Here we describe preliminary research into the in situ electrokinetic generation of continuous iron-rich precipitates to act as sub-surface barriers for the containment of contaminated sites. This is achieved using sacrificial iron electrodes emplaced either side of a soil/sediment mass to introduce iron into the system, and their dissolution and re-precipitation under the influence of an applied (DC) electric field. Continuous vertical and horizontal iron-rich bands (up to 2 cm thick) have been generated over a timescale of 300–500 h, at voltages of <5 V with an electrode separation of between 15 and 30 cm. The thickness of the iron-rich band increases as the applied voltage is increased. Geotechnical tests in sand indicate that the iron-rich band produced is practically impervious (coefficient of permeability of 10−9 ms−1 or less), and has significant mechanical strength (unconfined compressive strength of 10.8 N mm−2). By monitoring the current, the integrity of the iron-rich band may be assessed, and by continued application of current, the barrier may ‘self heal’. The iron-rich barrier is composed of amorphous iron, goethite, lepidocrocite, maghemite and native iron.
|Number of pages||9|
|Publication status||Published - Oct 2005|
- Horizontal barriers
- Contaminated land
Faulkner, D. W. S., Hopkinson, L., & Cundy, A. (2005). Electrokinetic generation of reactive iron-rich barriers in wet sediments: implications for contaminated land management. Mineralogical Magazine, 69(5), 749-757.