Difference between revisions of "Exothermy offloading"
From apm
(added related section (and line-breaks)) |
(some minimal elaboration & added links) |
||
| Line 3: | Line 3: | ||
Similar to [[dissipation sharing]]. <br> | Similar to [[dissipation sharing]]. <br> | ||
But instead of only equilibrating between the [[piezochemical mechanosynthesis]] sites on [[molecular mills]] <br> | But instead of only equilibrating between the [[piezochemical mechanosynthesis]] sites on [[molecular mills]] <br> | ||
| − | the idea here is to get the somewhere unconditionally necessary dissipation (increase in microstates) | + | the idea here is to get the somewhere unconditionally necessary dissipation (increase in number of microstates) <br> |
| − | all the way out to the drive system. | + | all the way out to the drive system rather than within the zone of [[mechanosynthesis core]]s where [[piezochemical mechanosynthesis]] happens. |
When only happening inside the [[mechanosynthesis core]]s of a [[gem-gum factory]] <br> | When only happening inside the [[mechanosynthesis core]]s of a [[gem-gum factory]] <br> | ||
Revision as of 14:12, 24 February 2022
Similar to dissipation sharing.
But instead of only equilibrating between the piezochemical mechanosynthesis sites on molecular mills
the idea here is to get the somewhere unconditionally necessary dissipation (increase in number of microstates)
all the way out to the drive system rather than within the zone of mechanosynthesis cores where piezochemical mechanosynthesis happens.
When only happening inside the mechanosynthesis cores of a gem-gum factory
then it would necessarily need to be an exothermic dissipation process since
the machine phase does not allow for an increase in positional disorder which is a prerequisite for endothermy.
