User:Sweeper~Storm/Guide to Atmospheric
Dumping the info of Rddrazga there so I don't loose it Todo:
- a new desc for each gas of what it does, not how to get it since it'll go in the reaction section
- a list of all the reactions, not how to obtain them but the requirement in the code
- what they do
- what they use
- ADD THE FIRES BECAUSE THEY ARE ALSO REACTIONS
- I should also go over the various devices and such to make sure it's all good. (yeah good fucking luck future Sweeper)
Let's make a nice table for it shall we, it's always good to have a table to present nicely things. (maybe even collapsible?)
Name | Gasses required | Temperature/pressure required | Consume | Produce | Notes |
---|---|---|---|---|---|
Nytril/NO2 | 20 mols of O2 20 mols of N2 5 mols of N2O |
22,380k min higher temps improve the quantities reacting |
1 mol of O2 1 mol of N2 |
1 mol of NO2 | |
BZ | 10 mols of N2O 10 mols of plasma |
No temp requirement lower pressures improve the quantities reacting |
1 mol of N2O 1 mol of plasma |
1 mol of BZ | |
Stimulum | 10 mols of plasma 20 mols of bz 30 mols of NO2 |
50,00k higher temps improve the quantities reacting |
1 mol of plasma 1 mol of NO2 |
1 mol of stimulum | Each moles of stimulum synthetized will produce 50 research points up to a maximum of 500,000. |
Hypernoblium | 20 mols of N2O 20 mols of tritium |
5,000,000k | 20 mols of N2O 10 mols of tritium |
1 mol of hypernoblium | Each moles of hypernoblium synthetized will produce 200 research points up to a maximum of 2,000,000. |
Miaster/Dry Heat Sterilization | Any amount of miasma No water vapor |
443k | 1 mol of miasma | 1 mol of O2 | Any water vapor will stop the reation. Each mole of O2 synthetized will produce 40 research points up to a maximum of 400,000. |
Stimball | 2 mols of pluoxonium 2 mols of stimulum 2 mols of plasma |
373k | 1 mol of pluoxonium 1 mol of stimulum 1 mol of plasma |
5 mols of NO2 DEATH |
Will continuously shoot radioactive nuclear particles in all directions. |
Hexane | Any amount of BZ Any amount of hydrogen |
450k-465k | 0.25 mol of BZ 5 mols of hydrogen |
5.25 mols of hexane | |
Freon | 40 mols of plasma 20 mols of CO2 20 mols of BZ |
473k higher temps improve the quantities reacting |
1.5 mols of plasma 0.75 mols of CO2 0.25 mols of BZ |
2.5 mols of freon | |
Halon | Any amount of BZ Any amount of tritium |
30k-55k | 0.25 mols of BZ 4 mols of tritium |
4.25 mols of halon | The reaction will consume heat as it produce halon. |
Healium | Any amount of BZ Any amount of freon |
25K-300 | 0.25 mols of BZ 2.75 mols of freon |
3 mols of healium | |
Pluonium | Any amount of pluoxonium Any amount of H2 |
5,000k-10,000k | 0.2 mols of pluoxonium 2 mols of H2 |
2.2 mols of pluonium | |
Zauker | Any amount of hypernoblium Any amount of stimulum |
50,000k-75,000k | 0.01 mols of hypernoblium O.5 mols of stimulum |
0.5 mols of zauker |
|
Nitryl/NO2: -Minimums: 20 mols O2, 20 mols N2, 5 mols N2O (not consumed), 22,380k min temp, better at higher temps. -Consumes 1 mol of O2 and N2 per 1 NO2
BZ: -Minimums: 10 mols N2O, 10 mols plasma, Temp unimportant(but affects pressure and thus efficiency), Lower pressure creates BZ faster. - Consumes 1 mol N2O and 1 mols Plasma per 1 mol BZ
Stimulum: -Minimums: 10 mol plasma, 20 mol bz (not consumed), 30 mol nitryl, 50,000k, better at higher temps -Consumes 1 mol Plasma and 1 mol NO2 per 1 mol Stimulum, Produces 50 research points per mol up to a max of 500,000
Hyper Noblium: -Minimums: 20 mols N2O, 10 mols Tritium, 5,000,000k -Consumes: 10 mols of tritium and 20 mols of NO2 per 1 mol of Noblium, Produces 200 research points per mol up to a max of 2 million
Miaster (reaction not gas): -Minimums: APPARENTLY exists, 443k, any amount of miasma, no water in air -1 mol of Miasma burns to form 1 mol oxygen, Produces research when this happens of 40 points, up to 400,000 (Time for science to abuse this)
Stimball (Gods help me for posting this): Minimums: 2 mols Pluoxium, 2 mols Stimulum, 2 mols Plasma, 373k Consumes: 1 mol Stimulum, 1 mol Pluoxium, 1 mol Plasma, Creates 5 mols NO2, and huge amounts of death.
Hexane: Minimums: Bz, Hydrogen (any amount), 450k-465k (temp range) Consumes: 5 mols hydrogen, .25 mols bz, produces 5.25 mols hexane
Metal Hydrogen: OUTDATED: PR#15333 I'll need to check it for the up to date info though it's just number changes iirc Minimums: 100 mols hydrogen, 5 mols BZ, 1e7k, pressure: 1e7 Consumes: 3.5 mols hydrogen, 0.01 mols BZ for an increasing probability at higher heats to form 1 metal hydrogen sheet
Freon: Minimums: 40 mols plasma, 20 mols CO2, 20 mols BZ, 473k Consumes: 1.5 mols plasma, 0.75 mols CO2, .25 mols BZ, per 2.5 mols Freon. Faster at higher temps.
Halon: Minimums: bz,trit, (Any amount), 30k-55k (temp range) Consumes: 4 mols tritium, .25 mols BZ, per 4.25 mols halon. (Consumes some heat on formation)
Healium: Minimums: bz,freon (Any amount), 25k-300k (temp range) Consumes: 2.75 mols freon, .25 mols bz, produces 3 mols healium
Pluonium: Minimums: Pluoxium, H2, (Any amounts), 5,000k-10,000k (temp range) Consumes: 2 mols hydrogen, .2 mols pluoxium, produces 2.2 mols pluonium
Zauker: Minimums: HyperNoblium, Stimulum (Any amounts), 50,000k-75,000k (temp range) Consumes: 0.01 mols hyper nob, 0.5 mols stimulum, produces .5 mols zauker
Hot-Ice: (NOT A REACTION, A BYPRODUCT OF FREON FIRE IN CERTAIN CONDITIONS) Minimum: 1 mol freon 1 mol O2, 120k-160k Consumes: 1 mol freon to (variable)mols O2, produces 1 hot ice, cools down area it was formed on.