![]() Two years after the discovery of the neutron in 1932 by James Chadwick, Enrico Fermi and his colleagues in Rome began pelting these newly found particles at uranium with other physicists also reaching the conclusion the particle would make a good probe of the atomic nucleus. This led to the discovery by Henri Becquerel, Marie Curie, Pierre Curie, and Rutherford that the atoms of elements could 'decay' and transmute to another element via the emission of an alpha particle. The discovery of induced fission wouldn't have been possible without the strides made by Ernest Rutherford and Niels Bohr toward a coherent picture of the atom during the 1910s. The detonation of so-called 'atom bombs' is signified by the sight of a mushroom cloud - a dreadful reminder of the power of the atom and of fission itself. Where this is the case, stacking reactors is definitely not recommended because that would make the bottom central block unavailable for automated temperature control.When this process is allowed to run unchecked, however, it gives rise to a powerful and destructive force. Multiple reactors, stacked, operate independently, at different temperatures (or not at all) with no sharing of inventory or energy. Update: In a recent version of NuclearCraft (2.17c-1.12.2, tested in Sky Factory 4), stacking doesn't apply. Therefore, placing a reactor below another will empty the inventory of the reactor above it. All reactors use the inventory of the bottom reactor, so breaking and replacing any non-bottom reactor is safe. There is no limit to the number of reactors that can be stacked. This will increase RF output and fuel consumption in a linear fashion - for instance two reactors doubles the RF output and the amount of fuel consumed per tick, three reactors triples it, etc. ![]() ![]() Multiple reactors may be combined by stacking them. updated example since the values were comparing incorrect measurements.Ĭomparators check the efficiency of the reactor, maxing out at 95% efficiency. For instance, while operating at 30% efficiency it will use 1 fuel/tick and output 200 RF/fuel, for a total 200 RF/t while at 90% it will use 3 fuel/tick and output 600 RF/fuel, for a total 3,600 RF/t. The reactor will never drop below 7 MK in this fashion, so restarting the reactor only requires a minimal amount of energy.Īt lower efficiencies fuel will be consumed slower and will produce less RF each. This is the only way to lose heat the reactor will not lose heat if it runs out of fuel. The higher the temperature, the faster the heat is lost. ![]() While disabled the reactor will continue to output RF until its internal buffer is empty, after which it will begin quickly losing heat. The reaction can be disabled with a redstone signal applied to the bottom center block of the reactor. The reactor will gain heat continuously while a reaction in in progress. It has a maximum temperature of 20,000 MK. The amount of RF generated is based on the fuel types and the heat of the reactor. ![]() This takes approximately 40,000,000 RF (If you have Ender IO, this is 180% of the storage capacity of a Vibrant Capacitor). Once the temperature has reached 8 MK (Mega-Kelvin) a reaction may be started. In order to get it started, it requires heat, which can be created by inputting large amounts of RF into the reactor. The Fusion Reactor is powered by Nuclear Fusion by combining various Fusion Nuclear Fuels. ![]()
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