Difference between revisions of "Hot gas phase recycling cycle"
(Created page with "(''speculativity warning!'') When advanced atomically perecise products start to get used diamondoid scrap will start to a...") |
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See: "[[diamondoid waste incineration]]" | See: "[[diamondoid waste incineration]]" | ||
− | Gasses might be directly processable with advanced forms of [[tooltip chemistry]] | + | Gasses might be directly processable with advanced forms of [[tooltip chemistry]]. |
− | Pure hydrocarbon diamondoid waste won't produce solid ashes. | + | Pure hydrocarbon [[diamondoid]] waste won't produce solid ashes. |
− | For ashes from silicon or metals | + | For ashes from silicon or metals [[bulk chemistry]] (possibly desktop scale) might be needed. |
Lessons will be takeable from the improvement of conventional mining and post processing with AP technology. See: "improved [[mining]]". | Lessons will be takeable from the improvement of conventional mining and post processing with AP technology. See: "improved [[mining]]". |
Revision as of 13:23, 28 January 2014
(speculativity warning!)
When advanced atomically perecise products start to get used diamondoid scrap will start to accumulate. Through sensible system design with direct recycling of microcomponents the rate of scrap production could be held low but it will undoubtedly accumulate.
To keep the waste from the environment it should be thermally disintegrated. See: "diamondoid waste incineration"
Gasses might be directly processable with advanced forms of tooltip chemistry. Pure hydrocarbon diamondoid waste won't produce solid ashes. For ashes from silicon or metals bulk chemistry (possibly desktop scale) might be needed.
Lessons will be takeable from the improvement of conventional mining and post processing with AP technology. See: "improved mining".