Zapping sand to create rock could help curb coastal erosion

Zapping sand to create rock could help curb coastal erosion

But sending low voltage electricity through waterlogged sands can induce the formation of minerals that help bind the sediments, Rotta Loria and his colleagues report online August 22 in Communications Earth & Environment. The components of the minerals are already dissolved in the seawater, the researchers note.

Sending just 4 volts through a sand-and-seawater mixture for 28 days triggered mineralization. Using a rod-like electrode with a diameter of 2 centimeters could create a tube of rock up to 80 centimeters across. Calcium carbonate and magnesium hydroxide were the most common minerals. “It is, in essence, limestone,” Rotta Loria says.

  1. Blue bubbly material fills the middle and top of this microscopy image. It shows the minerals created when sand is zapped with low voltage electricity in an effort to sand into stone.
  2. Two chunks of rock sit on a pile of sand. The rocks were created by zapping waterlogged sand with low voltage electricity.

Strength tests revealed that the newly formed rock was about one-tenth as strong as concrete. But even that could help shorelines resist erosion. The mineralization process could help strengthen sandy areas at the bases of cliffs, thereby slowing erosion that would undercut the cliffs and slow their retreat from the shore. Or it could be used to firm up the foundations beneath shoreline homes, whether on slabs or on stilts. It could even be used to “heal” some cracks in existing concrete structures, the researchers suggest.

The mineralization method is eco-friendly — the voltages are too low for marine life to feel — and should also be economical, Rotta Loria notes. The process would likely cost between $3–$6 to solidify a cubic meter of seawater-soaked sand, the team estimates. Trucking in sand can cost roughly $14–$30 per cubic meter, taking billions to replenish a beach.

Comments

No comments yet. Why don’t you start the discussion?

Leave a Reply

Your email address will not be published. Required fields are marked *