Fission Reactor: Difference between revisions
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[[File:Fission reactor.png|thumbnail|Fission Reactor]] | [[File:Fission reactor.png|thumbnail|Fission Reactor]] | ||
This page is a work in progress! Many essential things are missing. | |||
The '''Fission Reactor''' is a multiblock structure that allows for variable input rates of [[Fissile Fuel]]. The reactor uses either [[Sodium]] or water as a coolant. Power is generated by converting the generated heat into power in an [[Industrial Turbine]]. With water cooled reactors, this is done by directly piping steam into an [[Industrial Turbine]]. Sodium cooled reactors use a [[Thermoelectric Boiler]] as a heat-exchanger to cool down the [[Superheated sodium]] and heat up water into [[Steam]]. | The '''Fission Reactor''' is a multiblock structure that allows for variable input rates of [[Fissile Fuel]]. The reactor uses either [[Sodium]] or water as a coolant. Power is generated by converting the generated heat into power in an [[Industrial Turbine]]. With water cooled reactors, this is done by directly piping steam into an [[Industrial Turbine]]. Sodium cooled reactors use a [[Thermoelectric Boiler]] as a heat-exchanger to cool down the [[Superheated sodium]] and heat up water into [[Steam]]. | ||
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== Construction == | == Construction == | ||
Revision as of 13:57, 22 July 2020
This page is a work in progress! Many essential things are missing.
The Fission Reactor is a multiblock structure that allows for variable input rates of Fissile Fuel. The reactor uses either Sodium or water as a coolant. Power is generated by converting the generated heat into power in an Industrial Turbine. With water cooled reactors, this is done by directly piping steam into an Industrial Turbine. Sodium cooled reactors use a Thermoelectric Boiler as a heat-exchanger to cool down the Superheated sodium and heat up water into Steam.
Contents
Construction
- The structure must be a cuboid of minimum size 3x4x3, up to 18x18x18.
- The edges of the outer shell must be made of Fission Reactor Casing
- The faces of the outer shell can be either Fission Reactor Casing, Reactor Glass, Fission Reactor Port or Fission Reactor Logic Adapter
Radiation
As a byproduct of burning Fissile Fuel, fission reactors produce Nuclear Waste which can be converted in either Polonium Pellet or Plutonium Pellet. Both conversion paths produce Spent Nuclear Waste (at a ratio of 10:1) as a byproduct, which must be stored in Radioactive Waste Barrels.
- Nuclear Waste is radioactive.
- All products and intermediate products of converting Uranium Ore to Fissile Fuel are not radioactive, i.e. safe to handle.
- Intermediate products of recycling Nuclear Waste are radioactive: Polonium, Plutonium and Spent Nuclear Waste.
- Plutonium Pellets and Polonium Pellets are not radioactive.
Radiation can leak into the environment for the following reasons:
- Fission reactor overheating leading to a c ore meltdown (actually blowing up).
- Fission reactor running with its waste tank full.
- Breaking any block containing radioactive materials. Most notably Pressurized Tubes and Radioactive Waste Barrels, but also any machine (like a Pressurized Reaction Chamber containing radioactive materials. These can still be broken safely if they are somehow drained of their radioactive contents beforehand.
Nuclear Waste or Spent Nuclear Waste can be piped into the top side of a Nuclear Waste Barrel with a Pressurized Tube.
The player can check the storage status of Nuclear Waste Barrels by crouching and right-clicking it with an empty hand.
While a barrel containing waste cannot be moved (because they cannot be broken safely in the first place), its contents can be drained from its bottom side with a tube in pull mode and moved to another barrel with a tube network. Once empty, the barrel can be safely broken.
Quantum Entangloporters cannot handle radioactive materials. i.e. it is not possible to make Polonium Pellets with a reactor in the nether or have a reactor in the overworld and store waste in the nether.
