Thermal energy transport: Difference between revisions
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Up: [[Energy transmission]] | |||
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With Diamondoid heat transmission systems of [[technology level III]] | With Diamondoid heat transmission systems of [[technology level III]] | ||
enormous surface densities of heat flow (heating cooling) can be archived. | enormous surface densities of heat flow (heating cooling) can be archived. | ||
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* high surface to volume ratio (a thin sheet or dense stripes) | * high surface to volume ratio (a thin sheet or dense stripes) | ||
* very good thermal conductiocity of diamond | * very good thermal conductiocity of [[diamond]] (also for [[moissanite]]) | ||
* good thermal capacity - the transport meium can be choosen for the operating temperature range | * good thermal capacity - the transport meium can be choosen for the operating temperature range | ||
* high throughput of thermal mass due to fast [[capsule transport]] - the turning radius poses hard constraints on geometry though | * high throughput of thermal mass due to fast [[capsule transport]] - the turning radius poses hard constraints on geometry though | ||
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* fusion power (figure eight loops for tokamaks?) | * fusion power (figure eight loops for tokamaks?) | ||
* geothermal stuff? | * geothermal stuff? | ||
* active cooling for [[ | * active cooling for [[gemstone based metamaterial]]s that maximize emulated toughness (''speculative!'') | ||
* ... | * ... | ||
== Related == | |||
* [[Energy transmission]] | |||
* [[Diamondoid heat pump system]] | |||
* [[Diamondoid heat pipe system]] (or ''"Gem-gum solid state heat pipe"'') | |||
* [[Thermal management in gem-gum factories]] | |||
[[Category:Thermal]] | |||
[[Category:Thermal]] | |||
[[Category:Technology level III]] | [[Category:Technology level III]] | ||
Latest revision as of 13:32, 25 May 2021
With Diamondoid heat transmission systems of technology level III enormous surface densities of heat flow (heating cooling) can be archived.
The factors that go in
- high surface to volume ratio (a thin sheet or dense stripes)
- very good thermal conductiocity of diamond (also for moissanite)
- good thermal capacity - the transport meium can be choosen for the operating temperature range
- high throughput of thermal mass due to fast capsule transport - the turning radius poses hard constraints on geometry though
- thermal conductivity of one dimensional sliding interfaces
[Todo: determine bottleneck in different situations - diagram]
Some possible applications
- in AP small scale factories of technology level III this is extended with diamondoid heat pump systems there the waste heat isn't too high and the situation far from extreme so turning radii do not play a role.
- high speed Aerial vehicles (See: medium movers)
- fusion power (figure eight loops for tokamaks?)
- geothermal stuff?
- active cooling for gemstone based metamaterials that maximize emulated toughness (speculative!)
- ...
Related
- Energy transmission
- Diamondoid heat pump system
- Diamondoid heat pipe system (or "Gem-gum solid state heat pipe")
- Thermal management in gem-gum factories