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==Tritium== | ==Tritium== | ||
[[File:Tritgengraph.png|thumb|670px]] | |||
Tritium is the most frequently produced gas in the turbine and for good reason. It is the most energetic non-fusion gas reaction, producing enough heat for the nitryl reaction, heating up fusion canisters to the requisite temperatures, generating radiation for the pluoxium reaction without the use of a supermatter crystal and is required in all the higher level gases. It also makes for great practice, since mastering the techniques required to produce large amounts of it touches on one of the essentials of every other gas reaction. Due to this, it is a good idea to practice tritium synthesis as you'll find it useful for all other reactions. | Tritium is the most frequently produced gas in the turbine and for good reason. It is the most energetic non-fusion gas reaction, producing enough heat for the nitryl reaction, heating up fusion canisters to the requisite temperatures, generating radiation for the pluoxium reaction without the use of a supermatter crystal and is required in all the higher level gases. It also makes for great practice, since mastering the techniques required to produce large amounts of it touches on one of the essentials of every other gas reaction. Due to this, it is a good idea to practice tritium synthesis as you'll find it useful for all other reactions. | ||
Tritium is produced when plasma burns under a high concentration of oxygen, specifically, a threshold (known in the code as the super saturation threshold) 96 times more oxygen than plasma. For this reason, only a 1 percent amount of plasma mixed with 96 percent more of oxygen will burn to produce tritium. This is true if we only consider one reaction tick, however the experienced among you know that you can get away with a 97-3 oxygen:plasma ratio and still get tritium. The reason for why this is is because of the oxygen burn rate being low enough that the oxygen replenishment rate rapidly ramps the concentration of oxygen to the point that the feed-in rate of plasma places the ratio of plasma to oxygen above the super saturation threshold. If this isn't clear enough, try understanding the following table: | Tritium is produced when plasma burns under a high concentration of oxygen, specifically, a threshold (known in the code as the super saturation threshold) 96 times more oxygen than plasma. For this reason, only a 1 percent amount of plasma mixed with 96 percent more of oxygen will burn to produce tritium. This is true if we only consider one reaction tick, however the experienced among you know that you can get away with a 97-3 oxygen:plasma ratio and still get tritium. The reason for why this is is because of the oxygen burn rate being low enough that the oxygen replenishment rate rapidly ramps the concentration of oxygen to the point that the feed-in rate of plasma places the ratio of plasma to oxygen above the super saturation threshold. If this isn't clear enough, try understanding the following table: | ||
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