Difference between revisions of "Underground working"

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(Created page with "{{Stub}} Today any kind of underground work (especially in hard rock) is very time consuming and energy extensive. With APM technology this may change radically. Astonishing...")
 
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Today any kind of underground work (especially in hard rock) is very time consuming and energy extensive.
 
Today any kind of underground work (especially in hard rock) is very time consuming and energy extensive.
 
With APM technology this may change radically.
 
With APM technology this may change radically.
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With such fancy '''saw blade system''' big sized chunks (e.g. liter to cubic meter) of soil could be cut out and transported to the surface in an [[infinitesimal bearing|infinitesimal beared]] state.
 
With such fancy '''saw blade system''' big sized chunks (e.g. liter to cubic meter) of soil could be cut out and transported to the surface in an [[infinitesimal bearing|infinitesimal beared]] state.
For this to work the drill channel must have consistent cross secttion. It could be like a bore hole with low bending radius or a just a bunch of perfect cubes requiring full stops of motion at the micrometer sharp 90° turns due to the high inertial mass of the huge blocks.
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For this to work the drill channel must have consistent cross secttion. It could be like a bore hole with low bending radius or a just a bunch of perfect cubes.
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Obviously threading cut out cubes through a square channel with micrometer sharp 90° turns requires full stops of motion at those turns due to the high inertial mass of the huge blocks.
  
Assuming a cut width of 1um and a core diameter or 1m (in square) the ratio between the preserved drill core volume and destroyed cut volume is (10<sup>6</sup>)<sup>2</sup>:1 or 10<sup>12</sup>:1 or 1 000 000 000 000 : 1 meaning  that if you excavate one cubic kilometer of material you only irreversibly destroy one cubic meter
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Assuming a cut width of 1um and a core diameter or 1m (in square) the ratio between the preserved drill core volume and destroyed cut volume is <br> (10<sup>6</sup>)<sup>2</sup>:1 or 10<sup>12</sup>:1 or 1 000 000 000 000 : 1 meaning  that '''if you excavate one cubic kilometer of material you only irreversibly destroy one cubic meter'''. The drilling cores can be preserved for later research stored as structural building material where maximum material strength is not of importance (meaning almost erywhere in big scale construction) if the excavated volume isn't needed anymore the cores could be put back to their origin restoring the natural state of the lithosphere.
the drilling cores drilling cores preserved
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A high amount of energy is only required for lifting stuff up from very great depths.
 
A high amount of energy is only required for lifting stuff up from very great depths.

Revision as of 16:02, 12 March 2015

This article is a stub. It needs to be expanded.

Today any kind of underground work (especially in hard rock) is very time consuming and energy extensive. With APM technology this may change radically. Astonishing cutting speeds should be possible.

With APM technology one could make cutting saw-blades that:

With such fancy saw blade system big sized chunks (e.g. liter to cubic meter) of soil could be cut out and transported to the surface in an infinitesimal beared state. For this to work the drill channel must have consistent cross secttion. It could be like a bore hole with low bending radius or a just a bunch of perfect cubes. Obviously threading cut out cubes through a square channel with micrometer sharp 90° turns requires full stops of motion at those turns due to the high inertial mass of the huge blocks.

Assuming a cut width of 1um and a core diameter or 1m (in square) the ratio between the preserved drill core volume and destroyed cut volume is
(106)2:1 or 1012:1 or 1 000 000 000 000 : 1 meaning that if you excavate one cubic kilometer of material you only irreversibly destroy one cubic meter. The drilling cores can be preserved for later research stored as structural building material where maximum material strength is not of importance (meaning almost erywhere in big scale construction) if the excavated volume isn't needed anymore the cores could be put back to their origin restoring the natural state of the lithosphere.

A high amount of energy is only required for lifting stuff up from very great depths. a vew hunded kilometers down the necessary energies are like the energies involved in spaceflight to LEO. One dont has to propell the propellant though.

Related

  • deep drilling
  • specifics to tunnel construction (tunelling)
  • specifics to near surface excavation work
  • geoengineering
  • prospective work for mining deep mining