Difference between revisions of "Mining"
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(added sections == Less mining == & == More mining == & == Gentler mining == & more) |
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− | + | == Less mining == | |
+ | |||
+ | [[Gem based APM]] has the potential to massively reduce the need for mining for two main areas. | ||
+ | * (A) Mining for transition metals for the purpouse of allyoing (usually steels) | ||
+ | * (B) Mining for noble metals for the purpouse of catalysis | ||
+ | Reasons: | ||
+ | * (A) [[gem-gum]] metamaterials from common elements only will far outperform steels in <br>–strength, –durability, –choosable properties (see: [[emulated elasticity]] for the last one) | ||
+ | * (B) mechanochemistry meeds less chemical synthesis and even with a noble metal catalysis boost much fewer active sites as they are much more efficiently used and much less lost via spill. | ||
+ | |||
+ | == More mining == | ||
+ | |||
+ | Abundant non-volatile elements will still be of high insterest to mining. | ||
+ | Silicates, aluminates, phosphates, sulfates (sulfur is a semi volatile element but mostly in soil on Earth) | ||
+ | And prehaps above and beyond all other in importance: Titanates. | ||
+ | |||
+ | Smart advanced automated mining systems may be imaginable. <br> | ||
+ | '''[[APM managed conventional technology]]'''. <br> | ||
+ | * First sharp focused sodium ion beams … <br> (as implanting sodium makes pritty much any and all lithospheric physical material water soluble | ||
+ | * Second high pressure hot water cutters following | ||
+ | * Thisrd perhaps aiding mechanically with selfrepairing blades. | ||
+ | |||
+ | == Gentler mining == | ||
+ | |||
+ | Gnerally aiming for sharp thin and clean clean cuts as <br> | ||
+ | the less material to atomize mechanically, chemically, or thermally <br> | ||
+ | the more efficient and fast a digging process can become. <br> | ||
+ | Hard rock like granite vcan be nicely mived as solid chunks. <br> | ||
+ | Brittle an crumbly soild will need some on site bagging for a non-nasty transport. | ||
+ | Witer cuts needed but cutting will afford less energy there. <br> | ||
+ | |||
+ | Slightly related: | ||
+ | Smecial [[gem-gum]] metamaterials designes to be as hard to mechanically/thermally/chemically destroy and get through as possible. [[Defensive weaponry]]. | ||
== Topics to elaborate == | == Topics to elaborate == | ||
* Near future conventional tech deep sea mining (Manganese) | * Near future conventional tech deep sea mining (Manganese) | ||
− | * APM based "gentle mining" | + | * APM based "gentle mining" (minimize cuts in number and width and document where blocks came from) |
− | * Legacy waste mining | + | * Legacy waste mining (material recovery or more likely just cleanup of old landfills) |
+ | |||
+ | == List of raw keywords == | ||
+ | |||
+ | * improved mining tools | ||
+ | * [[atomically precise disassembly]] | ||
+ | * lab on desktop [[bulk chemistry]]; [[refractory materials]] | ||
+ | * the whole [[recycling]] cycle including the [[hot gas phase recycling cycle]] | ||
+ | |||
+ | Lessons learned here may be applicable to the [[hot gas phase recycling cycle]]. | ||
== Related == | == Related == | ||
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* [[Unknown matter claimer]] | * [[Unknown matter claimer]] | ||
* [[Air as a resource]] | * [[Air as a resource]] | ||
+ | |||
Nonvolatile and non-watersoluble elements that can only be gained through mining auch as: <br> | Nonvolatile and non-watersoluble elements that can only be gained through mining auch as: <br> | ||
[[Silicon]], [[Phosphorus]], [[Aluminum]], [[Titanium]], [[Iron]], ... | [[Silicon]], [[Phosphorus]], [[Aluminum]], [[Titanium]], [[Iron]], ... |
Revision as of 15:59, 4 May 2024
Contents
Less mining
Gem based APM has the potential to massively reduce the need for mining for two main areas.
- (A) Mining for transition metals for the purpouse of allyoing (usually steels)
- (B) Mining for noble metals for the purpouse of catalysis
Reasons:
- (A) gem-gum metamaterials from common elements only will far outperform steels in
–strength, –durability, –choosable properties (see: emulated elasticity for the last one) - (B) mechanochemistry meeds less chemical synthesis and even with a noble metal catalysis boost much fewer active sites as they are much more efficiently used and much less lost via spill.
More mining
Abundant non-volatile elements will still be of high insterest to mining. Silicates, aluminates, phosphates, sulfates (sulfur is a semi volatile element but mostly in soil on Earth) And prehaps above and beyond all other in importance: Titanates.
Smart advanced automated mining systems may be imaginable.
APM managed conventional technology.
- First sharp focused sodium ion beams …
(as implanting sodium makes pritty much any and all lithospheric physical material water soluble - Second high pressure hot water cutters following
- Thisrd perhaps aiding mechanically with selfrepairing blades.
Gentler mining
Gnerally aiming for sharp thin and clean clean cuts as
the less material to atomize mechanically, chemically, or thermally
the more efficient and fast a digging process can become.
Hard rock like granite vcan be nicely mived as solid chunks.
Brittle an crumbly soild will need some on site bagging for a non-nasty transport.
Witer cuts needed but cutting will afford less energy there.
Slightly related: Smecial gem-gum metamaterials designes to be as hard to mechanically/thermally/chemically destroy and get through as possible. Defensive weaponry.
Topics to elaborate
- Near future conventional tech deep sea mining (Manganese)
- APM based "gentle mining" (minimize cuts in number and width and document where blocks came from)
- Legacy waste mining (material recovery or more likely just cleanup of old landfills)
List of raw keywords
- improved mining tools
- atomically precise disassembly
- lab on desktop bulk chemistry; refractory materials
- the whole recycling cycle including the hot gas phase recycling cycle
Lessons learned here may be applicable to the hot gas phase recycling cycle.
Related
Nonvolatile and non-watersoluble elements that can only be gained through mining auch as:
Silicon, Phosphorus, Aluminum, Titanium, Iron, ...