Guide to Atmospheric Synthesis: Difference between revisions

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==Nitryl==
==Nitryl==


Nitryl is not particularly interesting, the speedup murders your lungs and is best used in short bursts, but is not worth the time investment to manufacture. Stimulum however, a nitryl prerequisite, is far more valuable and may be worth it depending on your situation. The manufacturing of nitryl requires Nitrogen and Oxygen with some N2O catalyst and a large amount of heat. However, the conversion efficiency of nitryl scales upwards starting from the requisite 22500K, with most tritium burns under active water vapor scrubbing barely reaching the requisite temperatures and if they do, the conversion efficiency is so low the reaction proceeds far too slowly for batch production. For this reason, nitryl is unique in that it does not technically require to manufacture, but mass production requires it. As a result, it is generally advisable to reserve a slot of your sequestral heat exchange pipes for the nitryl, alongside the fusion can and hypernoblium.
Nitryl is not particularly interesting, the speedup murders your lungs and is best used in short bursts, but is not worth the time investment to manufacture. Stimulum however, a nitryl prerequisite, is far more valuable and may be worth it depending on your situation. The manufacturing of nitryl requires Nitrogen and Oxygen with some N2O catalyst and a large amount of heat. The requisite temperature of 11,194.5K can be reached by tritium burns, but efficient mass production requires prolonged exposure to temperatures in excess of 20000 where the conversion speed is fast enough to fully convert more than a thousand moles of the stuff. For this, a good tritium burn under negative oxyrate with active water vapor scrubbing is advised.

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