Difference between revisions of "Capsule transport"

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(Related: added link to yet unwritten page Superlube tubes)
 
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* [[Medium movers]]
 
* [[Medium movers]]
 
* [[Energy transmission]] with [[mechanical energy transmission cables]] carrying [[energy storage cells|fuel capsules]]
 
* [[Energy transmission]] with [[mechanical energy transmission cables]] carrying [[energy storage cells|fuel capsules]]
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* physical data transmission (sneakernet)
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When bigger capsules are transported friction can be further reduced by usage of [[infinitesimal bearing]].
  
 
== Filling and emptying pellets from a macroscopic reservoir ==
 
== Filling and emptying pellets from a macroscopic reservoir ==
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Fluids need either hydrophilic or lipophilic surfaces or droplet cutting pistons.
 
Fluids need either hydrophilic or lipophilic surfaces or droplet cutting pistons.
 
Gasses loe in with their speed of sound.
 
Gasses loe in with their speed of sound.
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== Related ==
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* [[Tube mail]]
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* [[Global microcomponent redistribution system]]
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* [[Superlube tube]]s
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== External links ==
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* https://en.wikipedia.org/wiki/Sneakernet
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[[Category:Nanofactory]]
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[[Category:Technology level III]]

Latest revision as of 18:24, 20 August 2018

Special case of: carrier pellets.

When transporting liquids or gasses in pipes there's always drag. AP surfaces too have nonlinear drag but it's several orders of magnitude lower thus packing the medium into pellets and moving them through pipes is a much better solution.

Such pellets can be useful at a number of occasions like:

When bigger capsules are transported friction can be further reduced by usage of infinitesimal bearing.

Filling and emptying pellets from a macroscopic reservoir

Fluids need either hydrophilic or lipophilic surfaces or droplet cutting pistons. Gasses loe in with their speed of sound.

Related

External links