How bacteria can help prevent coal ash spills

March 04, 2019

Researchers from North Carolina State University have developed a technique that uses bacteria to produce "biocement" in coal ash ponds, making the coal ash easier to store and limiting the risk of coal ash spills into surface waters.

Coal ash is produced by coal-fired power plants and is often stored in ponds. If the walls of these ponds fail, they can spill coal ash into nearby surface waters - as happened in the wake of Hurricane Florence in 2018, in Virginia's Dan River in 2014, and in Tennessee in 2008. These spills can have significant consequences, because coal ash contains contaminants such as mercury and arsenic.

"Our goal with this work was to see whether we could use bacteria to create a biocement matrix in coal ash ponds, making the coal ash stiffer and easier to contain," says Brina Montoya, an assistant professor of civil, construction and environmental engineering at NC State and co-author of two papers on the work.

Specifically, the researchers wanted to make use of bacterial species that feed on urea and, in the presence of calcium, produce a stiff substance that binds to surrounding solids. The resulting byproduct is called biocement.

"The idea is to introduce these bacteria - which are normally found in soil - into coal ash ponds, along with urea and calcium," Montoya says. "The resulting biocement wouldn't make the coal ash completely solid, but it would be a lot more viscous than the existing coal ash slurry."

In laboratory experiments, the researchers found that the process works with coal ash - the bacteria create biocement using coal ash, and the coal ash slurry becomes stiffer. In other words, the coal ash mixture is much less runny.

"This will certainly make it easier to contain, and less likely to contribute to pond failures that discharge coal ash into surface waters," Montoya says.

But the researchers are hoping that the bacterial biocement will also have a second benefit.

Because most coal ash ponds are simply unlined holes in the ground, contaminants in the coal ash can leach into groundwater, raising environmental and public-health concerns. The researchers are hoping that the biocement can also trap potentially toxic metals in the coal ash - though that work is ongoing.

"We still have a lot to do before this technique could be implemented on a large scale, but we would welcome any industry partners who are interested in helping us fine-tune the process for use in addressing the challenges surrounding coal ash storage," Montoya says.
The most recent paper on the work, "Enhancement of Coal Ash Compressibility Parameters using Microbial Induced Carbonate Precipitation," is published in the Journal of Geotechnical and Geoenvironmental Engineering. The earlier paper on the work, "Microbial Induced Calcium Carbonate Precipitation in Coal Ash," is published open access in the journal Géotechnique. Both papers were co-authored by Shahin Safavizadeh, a former Ph.D. student at NC State; and Mohammed A. Gabr, Distinguished Professor of Civil Engineering and Construction in NC State's Department of Civil, Construction and Environmental Engineering.

The work was done with funding from the Electric Power Research Institute and the National Science Foundation, under grant number 1554056.

North Carolina State University

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