I have begun Jared Diamond’s;
Book on why societies collapse and am into his discussion regarding the trials
and tribulations of the mining industry and the problems regarding cleaning up
the damage often caused. I wish to
address this particular issue.
As already discussed at length in
this blog we have a protocol that creates new soils, retains soluble chemicals
within the soil horizon and outright eliminates the entire need for chemical
fertilizers. This is the inevitable
future of agriculture however long it may take, as application needs years and
possibly decades. Yet agriculture happens to work that way and decades is a
practical time line. From my
perspective, agriculture is a solved problem (Thank the lord) that merely needs
years of knowledge sharing to implement.
This is well begun and will progress apace below the radar for years to
come. At best, it could be sped up.
My argument is that the core technology
can be used to properly sequester mine waste and tailings in an economic
manner.
A typical mine is engineered much
as follows:
1
1,000,000 tons of mill feed
2
2 to 5,000,000 tons of mine waste to be placed on a
waste pile.
The waste pile is engineered in
place to normally allow escaping leachate to follow normal drainage down into
the impoundment of the mill tailings pond.
This is significant because freshly broken rock will slowly weather and
contained minerals, although quite obviously quite uneconomic to mill, will be
released as soluble acids and salt and enter the underlying drainage. This is the sensible approach and the only
viable one that allows a waste tip to be ignored later unless there is a good
economic reason to revisit it.
In the meantime the persistent
leachate will escape into the impoundment pond that is already handling the
mill effluent. This is where we really
have a problem. Again fresh mineral
collects in the pond along with those million tons of finely ground mill waste
also including some more mineral finely divided.
These ponds are typically lined
and clay is added to absorb the mineral as much as possible. Ruptures and floods are no ones friend in
this situation and a release sends a strong charge of soluble mineral
downstream along with a charge of suspended talc like fines. Clay does not help a lot either.
There are some methods available
to partially neutralize the nasty chemicals but the result is typically partial
and the most important one will delightfully but safely turn the river purple.
What I suspect will work is to
produce coarse biochar from sawdust which should be readily available in
sufficient amounts to produce the tonnages desired. I would then blend the mill tailings and the
biochar on perhaps a ten to one ratio of tailings to biochar along with a
little cement to coagulate the mix and allow it all to set up in the tailings
pond. The carbon will progressively
absorb any free ions and any leachate arriving from upstream will percolate
into the now solid but porous bed and also be absorbed. It should be possible to capture any and all
free ions forever. It will not prevent minor
release from floods but that by its very nature would be hugely diluted.
After a few years of all this we
should have some pretty happy trees growing through the former tailings pond.
All mine solutions will still face some issues but this approach promises to reduce them to minor issues such as unidentified fault drainage and the like. It is geology after all.
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