Nuclear Reactors: Difference between revisions
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800 EU, 4 quad thorium, 1 chamber, highly stackable, uranium version |
800 EU, 4 quad thorium, 1 chamber, highly stackable, uranium version won't work |
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1920 EU, 10 quad thorium, uranium version |
1920 EU, 10 quad thorium, uranium version won't work |
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Revision as of 18:51, 21 November 2020
Nuclear Reactors
Available as soon as you've reached the Moon (late HV-early EV, or just get some titanium from aluminum gravel), nuclear reactors are a strong power source for EV and IV. The process of creating a reactor is quite complex and risks huge nuclear explosions. You are strongly advised to try all designs in a reactor planner before using them, and to encase your reactors in reinforced materials (2 layers minimum) or warded glass (thaumcraft) to prevent explosions from destroying the area. Test your reactor in creative first!
There are in general two types of reactors, power producing and breeder (for the items). For the power ones, you want the greatest efficiency (fewer rods, more power) and for breeders, you just want to consume as many rods as you can as fast as possible. Stacking also comes into play for large numbers, since they are not conveniently designed for that normally.
For items, you can look at this handy chart. Note that some items were excluded (for example getting thorium back from thorium rods). Note that the EU and Heat #s are for single rods (EU is /t, heat is /s as they only outputs each second), and that the EU should be multiplied by 10 for the actual amount per tick. See the updated planner for more details (Discord only for now). Any rod that has the same heat values is equivalent in a planner design, and anything that produces less heat can also be substituted, unless it's a MOX-type design. Usually.
Name | EU/t | Heat Produced/s | Durability | Produces | Produces (single only) |
---|---|---|---|---|---|
Thorium | 10/20/30/40/50 | 1/3/8/10/15 | 50000 | Lutetium | Th-232, Krypton |
Uranium | 50/100/150/200/250 | 4/12/24/40/60 | 20000 | Plutonium (IC2) | Pu-239, Krypton |
MOX | 50/100/150/200/250 | 4/12/24/40/60 | 10000 | Plutonium (IC2) | Pu-239, Pu-241, Krypton |
Naquadah | 50/100/150/200/250 | 4/12/24/40/60 | 100000 | Naquadria | N/A |
Naquadria | 50/100/150/200/250 | 4/12/24/40/60 | 100000 | - | N/A |
Tiberium | 50/100/150/200/250 | 2/6/12/20/30 | 50000 | Zirconium, Xenon | N/A |
The Core | 108800 | 19584 | 100000 | Zirconium, Naquadria | N/A |
Lithium | 0 | 0 | 10000 | Tritium | N/A |
For the power producing types, there are a couple types:
EU reactors produce raw energy directly with a 50% penalty. Use cables to transform the power into the GT type.
Fluid reactors produce hot coolant. Use a Large Heat Exchanger to convert the Hot Coolant to HP Steam/Steam, and HP Steam Turbines/LP Steam Turbines to generate energy with very high efficiency. See the Fluid Reactors page for details.
Vacuum reactors produce EU, but rely on cooling the cells in a vacuum freezer to keep it from exploding. See the Vacuum Reactors page to find out how to use them, and also redstone automation info.
Wrench reactors are a meme, you can read about them here
There are several fuel types:
Thorium is the cheapest and easiest to obtain, obtainable in large quantities from coal ore or thorium ore found in the nether. It lasts a long time but doesn't make much power. You need to make these to get Lutetium for Americium later on.
Uranium is obtained at Mars' moons from a couple ores. It doesn't last as long as thorium, but makes more power.
MOX is obtained by mixing plutonium (from depleted uranium rods, centrifuging uranium dust, or ores on later planets) with uranium. It returns enough plutonium to sustain itself. It outputs more power the hotter the reactor is.
Naquadah and Naquadria are obtained from mid-game ores, and are generally best used in naquadah generators.
Tiberium is made with tiberium. Get this from Ross128ba, the T5 planet.
The Core is made with naquadah and tiberium. Only use it with coolant cells!
Lithium fuel rods are used to make tritium in an alternate way. Have them touch another fuel cell to change them into tritium rods.
Sample Breeder Reactors
(note that these all use the new version of the planner, so you can't use the code in the non-updated planner)
Single Rod Breeders
270-1350 EU, 27 single rod, any type
erp=bpO50cpohiE5spCXRz5Ymy7XdRvHKUUaOyhcc85fHieIKUOX3TF9GLdmFjX2qlYOAdZi7AM=
90-450 EU, 9x single rod, any type, 0 chamber
erp=Buk7nRymLwTIJ7UYstIpODm3YgroivWdU70XcUXb+ve/WoXu+Mk/xqXTIL+AbJTsAw==
Mass Production Breeders
1680-2800 EU, 14 quad thorium/dual uranium, 4chamber
erp=Buk7nRymLwt4HZRNzw1hWKuL2KM8qGFvZxEMXVSEp5bC3OsCK0De4RffUikgK74M2ff4Aw==
1920 EU, 16 quad thorium, 4chamber. The planner says it's unstable but works ingame. The uranium equivalent however, does NOT.
erp=Buk7nRymLxL7m5ZGb8jXAZYmLvKbw8QtjYyvHQKaexIc0egF34NnVhYiGAKSYsT7qezkAw==
1260-3600 EU, 18 dual uranium/quad thorium
erp=bpO50cpsAJVHFH1pDDG7Bh9DY6ssmUIOduglgVrGSNlV/ppvTshl3LYn6+h9WkrdJl8FLAM=
2280-3800 EU, 19 quad thorium/dual uranium
erp=bpO50cpvAea5wzGrDrgIM+dcC7gIzqOMjbPLWBXZ3XUOYi3cnjH/UE5UZI2wCSx+qO01xAM=
4000 EU, 19 dual uranium and 4 single uranium, a challenge to automate
erp=bpO50cpohv999daNzlO8zbu2FlcL5w4D4y/z79oiZmFYvfCno3fw5IAVjfZacHOmFWs7wAM=
1320-2200, 11 quad thorium/dual uranium, 2 chamber, highly stackable
erp=bpO50cpi8EyKWNHtoyb5PT6Pwyl7P4WMk49thhuN0g9DMxag8Xo87jlLUok0mc2mmAM=
Sample Power Reactors
Normal
800 EU, 4 quad thorium, 1 chamber, highly stackable, uranium version won't work
erp=AbpO50cpi8EyCnGQsm5+3kqXSrPM16eyLkRDj6/7ubl08hlt3jA5aGz8kkqxbPtJHAM=
1920 EU, 10 quad thorium, uranium version won't work
erp=bpO50cpomK/mH0gVHOs23IkdoyDC6chL4SDpXqwoWDNXFT8Juuz6JbLfyp1ktNaIGQ+VHAM=
4200 EU, 7 quad uranium
erp=bpO50cpoI2eKrThHpJyipMUmaCGJ8k5A+HO9kIIVGf54qMT6qI/xgb7M3Q7JX65KPqAGvAM=
Fluid
(more fluid nukes pls)
1352HU, 2 quad uranium, needs neutron reflectors
erp=bpO6Loyois6/qhwqLwAbIalKGhjckNE/hVqUd1N/fum0Gioy+fIWfba9PELWTwrbI90DxAM=
MOX Heat-Neutral
600-1365 EU, 2 dual mox, 0 chamber, highly stackable
erp=Buk7nZrJow2SvTRXtQ3QZuWSDpVxNe3agU044xa9u8MdCBjdwG/scg2Vh73xihaAAw==
1200-2730 EU, 4 dual mox, 1 chamber, highly stackable
erp=AbpO52FwzNKwjrFZGpswjb3e9mapf8IKH9hklFqYnVL/AgwHhXpy1kbpN2Zf2ejLwAM=
3000-6825 EU, 5 quad mox
erp=bpO50cpoIJowPj7RBKnbNFAmPK179FN/1PjhLcjiHlEEDgF0icg+CsEHqwR2FoF2MPrWaAM=
Vacuum
3840-19200 EU, 16 quad, 4 chamber. Can use the 57120 He and for thorium 59640 He.
erp=ALDsXILdayTWaIJcWisBvH1kzuR4kxA6mAbbK7AnVSlLNk/W8EIXMsMsCeZQcLwZHp2uAw==
6240-27200 EU, 24 quad, 4 chamber. Can use 57120 for uranium for thorium 59640 He. Net production of 25K EU/t and needs 1 EV VF.
erp=ALDsXILdaypBjmMk8+jzFIllCi3+MPO75DhHP33FRgUc+cFBAFDMLjVRFrracDQ+mvf6Aw==
32000 EU, 30 quad uranium, Just under 1A LuV
erp=LDsXILda3jNNLFGAGd8I/XyVFGKLHeZjGXEzBVM56ghIg+A/GSvdLqFV6XDa+fcSIMheAw==
7680-38400 EU, 36 quad. Uranium needs 57120 He and 57440 He and 57024 He.
erp=Cw7FyC3YGSpofPcg3v7Rt2rIU8Ertcdf6BVVwHoR5RykZCApIZ+9C+vQtOmIG4832SYIXgM=
8720-43600 EU, 40 quad. The best one. Recommend having multiple filters for this design.
One way to get them is to run the reactor until the cells are at a heat value you want to filter with.
erp=Cw7FyC3lZJ6Zj/Oc4Nao++9yMtXp6SogX3f4Ddw3Czpsk7IaowG0zdhQlwWfEcgLWN5c6gM=