The earthquake triggered a powerful tsunami, with 13- to 14-meter-high waves damaging the nuclear power plant's emergency diesel generators, leading to a loss of electric power. The proximate cause of the disaster was the Tōhoku earthquake and tsunami, which remains the most powerful earthquake ever recorded in Japan. On 11 March 2011, a nuclear accident occurred at the Fukushima Daiichi Nuclear Power Plant in Ōkuma, Fukushima, Japan. ġ6 with physical injuries due to hydrogen explosions, Ģ workers taken to hospital with possible radiation burns ģ7☂5′17″N 141☁′57″E / 37.42139°N 141.03250☎ / 37.42139 141.03250ġ confirmed cancer death attributed to radiation exposure by the government for the purpose of compensation following opinions from a panel of radiologists and other experts. Water vapour/"steam" venting prevented a similar explosion in Unit 2. Hydrogen-air explosions in Units 1, 3, and 4 caused structural damage. A coal generator will not provide enough power until the steam generator starts up, in many cases you may need two coal generators.The four damaged reactor buildings (from left: Units 4, 3, 2, and 1) on 16 March 2011. One hydrogen or natural gas generator will be enough in a power plant room. The power generator, steam generator, aquatuner, pump and shut off can all be on the same power line when using conductive wire. If you need more help with the bypass setup see our How to use a pipe thermo sensor, guide to sorting hot and cold liquids (and gases).Ī hydrogen or coal generator will also be needed to power the aquatuner. The liquid pipe thermo sensor is set to 0☌ (32☏), at which point it will close off and polluted water will by pass the aqua tuner. To prevent the polluted water from freezing in the pipes there is a liquid pipe thermo sensor with liquid shutoff. If the steam gets too hot, the thermo sensor will disable the aquatuner before it breaks and allows the steam to cool it. Connect the aquatuner to a thermo sensor, that sends a green signal if below 200☌ (392☏). The polluted water is cooled by the aquatuner. At the bottom of the vent chamber connect a thermo sensor to a water pump, set to send a green signal if below 25☌ (77☏) or the temperature you would like out. In the vent chamber, the steam will condense into water and collect at the bottom. The cooled polluted water then moves around loop, where it cools the power generators and the steam vent. The cooling system room powers the steam turbine, which coverts some of the heat back into power. As the polluted water passes through aquatuner the heat is displaced into a cooling system room. The cooling loop is a thermal aquatuner in a steam chamber cooling system. The polluted water won’t turn to steam due to vent heating, and is resistant to freezing at lower temperatures. These temperatures work well with the steam and liquid water. The cooling system uses polluted water, which is available early game, has a low freezing point of -20☌ (-4☏) and high boiling point of 119☌ (390☏). Steel and ceramic are recommended for this build as the steam chambers get hot and can break things. If you haven’t unlocked this tech, then wall off the steam vent to prevent the base from over heating until you are ready. Make sure you have researched steam turbines, thermal aquatuners, and basic automation.
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