Fission Reactor

Revision as of 16:56, 22 July 2020 by Mbfrog (talk | contribs)
Fission reactor.png

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.

Construction


Some example control rod setups as seen from the top ( is for Fission Reactor Casing or Reactor Glass, R is for a control rod):

       CCCCC   CCCCC
 CCC   C   C   CR RC
 CRC   CR RC   C R C
 CCC   C   C   CR RC
       CCCCC   CCCCC


A fission reactor requires at least 4 Fission Reactor Ports:

  • One coolant input
  • One coolant output
  • One Fissile Fuel input
  • One waste output


Output ports must be configured to the proper output type by right-clicking them with a Configurator.

Reactor GUI

Main fission reactor GUI

The reactor's GUI shows it's status, burn rate, heating rate, temperature and structural damage (health).

Status

The reactor's running status, either active or disabled.

To activate the reactor, either click the green activation button, or send a redstone signal to a Fission Reactor Logic Adapter configured in activation mode (just right click the Fission Reactor Logic Adapter block to configure it).

The reactor stops when a player clicks the red SCRAM button or if a redstone signal on a logic adapter goes from 1 to 0.

Burn Rate

Stats tab

The burn rate is the rate at which the reactor will burn Fissile Fuel. For a newly formed reactor, it is automatically set to 0.1 mB/t. It can be changed in the reactor's statistics tab.

The theoretical maximum burn rate is 1 mB/t per [[Fission Fuel Assembly in the reactor, but the effective maximum burn rate depends on a number of factors (see the safe operation section below).

Heating Rate

The heating rate represents how much coolant is heated up per tick. The actual value depends on the burn rate. For a burn rate of one 1 mB/t, the heating rate is:

  • 20000 mB/t for a water cooled reactor
  • 200000 mB/t for a sodium cooled reactor


For safe operation, the external cooling setup must be able to handle that much heated coolant per tick. See the relevant section below.

Temperature

The core's temperature: green OK, yellow: danger zone, red: imminent meltdown.

TODO: add actual figures.

Damage

This indicates the actual structural damage of the reactor. When a reactor reaches critical temperature, it will start taking damage and this value will go up. The damage value of a reactor that has overheated but been stopped on time to prevent a meltdown will slowly go down on its own, no player intervention is needed.

TODO: need more tech details: how fast is damage recovery? does it recover if running in the danger zone (yellow heat value), etc.

Cooling and power production

Cooling a fission rector and converting the generated heat into power can be done in two ways: water cooling and sodium based cooling.

"Things to know" about how pipes/tubes work in Mekanism (to be moved into its own page):

  • The pump rate is the rate at which the pipe can pump gases/fluids from a container when set in pull mode
  • The capacity is how much the single pipe adds to to the pipe network's capacity (a pipe network being all pipes connected together)
  • At each tick, a pipe network tries to dump its whole buffer (i.e. up to the networks' capacity) evenly among all connected receivers
  • In effect, with no pipes set to pull mode, the actual transfer rate is limited by the minimum value of the providers ejection rate into the network and the network's capacity
  • If the ejection rate of a provider is lower than the pipe's rate, setting the pipe to pull mode will override the provider's ejection rate


Water based cooling

Minimal water cooled fission reactor

Water based cooling is sufficient for small setups, i.e. reactors with less than 20 Fission Fuel Assembly and a max burn rate of 20 mB/t. Beyond that, it gets hard to keep the temperature of the reactor core within acceptable parameters.

Setup:


Important: the Industrial Turbine must have Saturating Condensers in order to be able to condense steam into water and pipe that water back to the reactor. The max water output from a turbine can be seen in its statistics tab. The actual value is 64000 mB of water per condenser.

A water cooled reactor has a heat rate of 20000 mB of water for 1 mB of Fissile Fuel burnt.

The picture to the right shows a minimal fission reactor setup. From left to right: Induction Matrix, Industrial Turbine, Fission Reactor. The reactor has a single Fission Fuel Assembly. It takes Fissile Fuel from its front input port, Nuclear Waste is output to the right to a Nuclear Waste Barrel. In the back behind the reactor, there are two Electric Pumps feeding the coolant loop with fresh water if need be. The Industrial Turbine is a minimal 5x9x5. This setup generates 71.4 kJ/t when burning Fissile Fuel at its maximum of 1 mB/t. That's roughly 2.5 times less power than a Gas-Burning Generator burning Ethylene.

Sodium based cooling

Sodium cooled fission reactor

For larger reactors, with a burn rate higher than 20 mB/t, Sodium is a much more efficient coolant and allows achieving very high burn rates at lower core temperatures. Sodium based cooling requires a Thermoelectric Boiler as an intermediary heat-exchanger to cool down the Superheated sodium from the reactor and heat up water into Steam.

  • Connect

Safe operation

Breaker switch

Radiation and nuclear waste handling

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 as a byproduct (at a ratio of 10:1), which must be stored in Radioactive Waste Barrels. Nuclear Waste or Spent Nuclear Waste can be piped into a Nuclear Waste Barrel from its top side with a Pressurized Tube.


Radiation can leak into the environment for the following reasons:

  • Fission reactor overheating leading to a core 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 Barrels

TODO: move this to its own page

Waste Barrels are used to store (or as buffer for) Nuclear Waste and Spent Nuclear Waste. They delete their contents at a rate of 1 mB per minute.

The player can check the storage status of Nuclear Waste Barrels by crouching and right-clicking it with an empty hand. Green radiation particles start to appear as a barrel fills up (these are just a rough visual indicator of a barrel's fill ratio, not actual radiations).

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 Entangloporter]]s 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.

Tips

  • For any given reactor burn rate, the more turbine blades, the more energy is produced per mB of Fissile Fuel. As a result, the bigger the turbine the better. Also it is best to max out the rotor height and make trade-offs on the vents/condensers count. With a slightly shorter rotor, one could add more condensers and achieve higher burn rates and total power produced, but at a higher cost in terms of power produced per mB of Fissile Fuel burnt.
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