Template:Atmospherics gasses: Difference between revisions
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| Plasma||2||200||none||373.15 K||15||4||||style="background-color:#ff5100"|High Risk||Risky when combined with oxygen due to the risk of plasma fires, however, it also has a very high specific heat giving it excellent cooling properties. | | Plasma||2||200||none||373.15 K||15||4||||style="background-color:#ff5100"|High Risk||Risky when combined with oxygen due to the risk of plasma fires, however, it also has a very high specific heat giving it excellent cooling properties. | ||
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| Water Vapor||0.5||40||8||||12||2||||EXTREME||Will cause the Supermatter to rapidly overheat and explode! Also appears to reduce power level. | | Water Vapor||0.5||40||8||||12||2||||style="background-color:#ff5100"|style="background-color:#eb332d"|EXTREME||Will rapidly cause the Supermatter to rapidly overheat and explode! Also appears to reduce power level. | ||
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| Nitrous Oxide||3||40||10||1400 K||||||||style="background-color:#edfc3f"|Moderate Risk||This gas provides a moderate amount of heat resistance, with a coefficient of 6. However, it will react into nitrogen and oxygen at 1400 Kelvin, which will likely cause plasma fires inside the supermatter chaimber. | | Nitrous Oxide||3||40||10||1400 K||||||||style="background-color:#edfc3f"|Moderate Risk||This gas provides a moderate amount of heat resistance, with a coefficient of 6. However, it will react into nitrogen and oxygen at 1400 Kelvin, which will likely cause plasma fires inside the supermatter chaimber. | ||
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| Freon||15||600||-5||||-10||(-100%)||-1||style="background-color:#3de38d"|Very Safe||Cools the engine quickly, but completely stops power generation if it makes up more than 3% of the gas composition. | | Freon||15||600||-5||||-10||(-100%)||-1||style="background-color:#3de38d"|Very Safe||Cools the engine quickly, but completely stops power generation if it makes up more than 3% of the gas composition. | ||
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| Hydrogen||1||15||2||373.15 K||10||25||1||style="background-color:#ff5100"|High Risk||Essentially the (slightly) less dangerous younger brother of Tritium, providing a heat resistance coefficient of 2. | | Hydrogen||1||15||2||373.15 K||10||25||1||style="background-color:#ff5100"|style="background-color:#eb332d"|High Risk||Essentially the (slightly) less dangerous younger brother of Tritium, providing a heat resistance coefficient of 2. | ||
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| Healium||19||10||none||||4||2.4||1||style="background-color:#edfc3f"|style="background-color:#ff5100"|Moderate Risk||I cannot find a single documented case of anyone actually putting this in the Supermatter. | | Healium||19||10||none||||4||2.4||1||style="background-color:#edfc3f"|style="background-color:#ff5100"|Moderate Risk||I cannot find a single documented case of anyone actually putting this in the Supermatter. | ||
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| Proto Nitrate||5||30||none||||-3||15||1||style="background-color:#3de38d"|Very Safe||Provides crystal heat resistance coefficient of 5, a power transmisson bonus, and it actively cools the Supermater. Suffers from the drawback of lack of availability. | | Proto Nitrate||5||30||none||||-3||15||1||style="background-color:#3de38d"|Very Safe||Provides crystal heat resistance coefficient of 5, a power transmisson bonus, and it actively cools the Supermater. Suffers from the drawback of lack of availability. | ||
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| Zauker||100||350||none||||8||20||1||style="background-color:#ff5100"|High Risk||I cannot find a single documented case of anyone actually putting this in the Supermatter. | | Zauker||100||350||none||||8||20||1||style="background-color:#ff5100"|style="background-color:#eb332d"|High Risk||I cannot find a single documented case of anyone actually putting this in the Supermatter. | ||
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| Helium||6||15||7||||||||||Unknown|| | | Helium||6||15||7||||||||||Unknown|| | ||
Revision as of 23:22, 22 October 2021
| Name | Base export value | Specific heat | Fusion Power | Reaction temperature | Heat penalty | Transmission Modifier | Gasmix power ratio | Safety | Notes |
| Oxygen | 0.2 | 20 | none | 1 | 1.5 | 1 | Moderate Risk | Oxygen often dangerous due to it's (explosive) reactive nature with other gasses. | |
| Nitrogen | 0.1 | 20 | none | -1.5 | -1 | Very Safe | Nitrogen activelly cools the Supermatter crystal, making it extremely safe to use for beginers. | ||
| Carbon Dioxide | 0.2 | 30 | none | 0.1 | 1 | Moderate Risk | Has a unique reaction with the Supermatter crystal, reducing power loss over time, allowing higher EER levels. | ||
| Plasma | 2 | 200 | none | 373.15 K | 15 | 4 | High Risk | Risky when combined with oxygen due to the risk of plasma fires, however, it also has a very high specific heat giving it excellent cooling properties. | |
| Water Vapor | 0.5 | 40 | 8 | 12 | 2 | style="background-color:#eb332d"|EXTREME | Will rapidly cause the Supermatter to rapidly overheat and explode! Also appears to reduce power level. | ||
| Nitrous Oxide | 3 | 40 | 10 | 1400 K | Moderate Risk | This gas provides a moderate amount of heat resistance, with a coefficient of 6. However, it will react into nitrogen and oxygen at 1400 Kelvin, which will likely cause plasma fires inside the supermatter chaimber. | |||
| Hyper-noblium | 5 | 2000 | 10 | Very Safe | Has no interaction with the crystal, stops gasses from reacting to prevent fires, and has an insanely high specific heat. The only problem is you're probably never going to get your hands on any of it. | ||||
| Tritium | 5 | 10 | 5 | 373.15 K | 10 | 30 | 1 | EXTREME | Extremely dagerous due to it's combustable nature and low specific heat. |
| Nitryl | 5 | 20 | none | None | |||||
| BZ | 2 | 20 | 8 | 5 | -2 | 1 | Safe to Moderate | Directly increases the transmission of your gas composition. | |
| Pluoxium | 5 | 80 | -10 | -0.5 | -5 | -1 | Safe | ||
| Miasma | 2 | 20 | none | none | none | 0.5 | Safe | Increases power generation as it is consumed by the crystal. How? Miasma is actually a fine particulate, so the particles hitting the supermatter cases them to disintegrate, energizing the crystal. | |
| Freon | 15 | 600 | -5 | -10 | (-100%) | -1 | Very Safe | Cools the engine quickly, but completely stops power generation if it makes up more than 3% of the gas composition. | |
| Hydrogen | 1 | 15 | 2 | 373.15 K | 10 | 25 | 1 | style="background-color:#eb332d"|High Risk | Essentially the (slightly) less dangerous younger brother of Tritium, providing a heat resistance coefficient of 2. |
| Healium | 19 | 10 | none | 4 | 2.4 | 1 | style="background-color:#ff5100"|Moderate Risk | I cannot find a single documented case of anyone actually putting this in the Supermatter. | |
| Proto Nitrate | 5 | 30 | none | -3 | 15 | 1 | Very Safe | Provides crystal heat resistance coefficient of 5, a power transmisson bonus, and it actively cools the Supermater. Suffers from the drawback of lack of availability. | |
| Zauker | 100 | 350 | none | 8 | 20 | 1 | style="background-color:#eb332d"|High Risk | I cannot find a single documented case of anyone actually putting this in the Supermatter. | |
| Helium | 6 | 15 | 7 | Unknown | |||||
| Antinoblium | 10 | 1 | 20 | Unknown | |||||
| Stimulum | 100 | none | Unknown | ||||||
| Halon | 9 | 175 | none |