Monday, September 2, 2013

Biorock






I have posted on this in the past, mostly because it is neat technology and I had put out effort to pursue this back in 1981 and had met the founder then.  I recently rethought certain aspects of the technology and reached an insight toward making superior use of the technology.

Much if not all effort has been applied toward building robust structures using the method.  This consists of putting a screen form into sea water with adjacent graphite anodes and supplying a low charge to the metal.  This causes calcium carbonate to precipitate onto the metal allowing sea life to quickly attach.  Great for oysters!

I was keen on building extensive reefs and thought through various construction protocols.

It recently struck me that I was trying too hard. It made way more sense to find a sand bottom well below all known wave action and to simply lay out mats to do the accretion.  A piling every kilometer or so could provide wind driven energy to feed the mats themselves.  They could be easily manufactured in rolls and laid out.

From this core beginning, mother nature can be counted on to do the rest to build up a bed of sea shells and coral if conditions permit.  It is just not going to be built out inside a couple of years but it will get built out and the live bed will fill the adjacent ocean with sealife.  I wonder if the Great Barrier reef was started this way? 

We need to do this in the Gulf of Mexico and laying out such a structure will be cheap and simple.


Biorock


Biorock Accretion: coral reef restoration and shore protection


Mineral accretion technology is a method which uses safe, low voltage electrical currents through seawater, causing dissolved minerals to crystallize out on structures, growing into a white limestone similar to that which makes up coral reefs and tropical white sand beaches. This material has a strength similar to concrete. It can be used to make growing artificial reefs on which corals grow at very rapid rates because the change in the environment produced by electrical currents speed up formation and growth of both chemical limestone rock and the skeletons of corals and other shell-bearing organisms.


(article continued below, accretion process drawing produced by Mitsui Engineering & Shipbuilding Co. of Japan, illustrating accretion technology applications and concepts developed by Wolf Hilbertz ")

Mineral accretion methods are the best to speed up coral growth in damaged areas and restore authentic coral reef habitat and species. Mineral accretion structures become rapidly colonized by a full range of coral reef organisms, including fish, crabs, clams, octopus, lobster, sea urchins. Species typical of healthy reef conditions are given an electrical advantage over the weedy organisms which overgrow them in reefs stressed by humans. The advantages corals gain from mineral accretion are cancelled if they no longer receive current, at which point weeds will overgrow the corals. If the current is maintained, coral reefs can often be restored even in areas where water quality would prevent their recovery by any other method. Mineral accretion structures cement themselves onto hard bottom, providing a physical barrier to waves which grows slowly larger and stronger. An unusual feature of mineral accretion materials is that if a section is damaged by waves, rocks, or ships, the cracks will be first filled in as long as the current flows, making them self-repairing structures. They also have tremendous potential for making breakwater structures which get stronger with age, and for producing limestone structural building materials that can be grown in the sea, replacing the mining of living reefs for limestone in many countries.


Accretion is very versatile since it can be powered by a large range of electrical sources including chargers, windmills, photovoltaic, and tidal current generators. Most areas where mineral accretion would be useful for reef restoration, shore protection, or material production are remote from electrical power, but mineral accretion is ideally suited to renewable energy from solar panels, and wind or water current windmill and propeller driven generators.


Mineral accretion was first developed by architect Wolf Hilbertz in order to provide alternative construction materials. Since 1988, he and Thomas Goreau of the Global Coral Reef Alliance developed its use for reef restoration and shore protection. Their company hold various patents on such applications. Dr. Thomas Goreau continues Wolf Hilbertz' work and is seeking to develop projects with a focus on coral propagation, preservation of corals, coral reef restoration, shore protection structures, and mariculture.


Demonstration projects conducted at number of locations around the world have involved the grafting of salvaged coral fragments to accreted or "Biorock" reef structures.
– Enhanced growth rates of the salvaged corals were monitored and documented.
– Survival of corals on biorock reef structures exceeded the survival of corals on adjacent natural coral reef formations under severely degrading environmental conditions.
– Biorock reef structures immediately became integrated, living parts of their marine environment, providing additional substrata available and conducive to further natural settlement of wild corals.

– Biorock reef structures have been termed "Coral Arks", which ultimately hold promise to augment repopulating of corals on natural reefs that have suffered degradation and devastation from numerous human related and natural causes.



Dr. Goreau is engaged in continued development and application of accretion technology as the primary consultant and principal of Biorock Inc., working in association with environmental conservation organizations, government organizations, and private interests.

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