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Super coolant would provide more power, but again, wanted to keep it simple. This is then feed into the thermal extraction system to delete the heat and recoup 1.08 W. The idea is that an aquatuner with water can move 1 kDTU/s at a cost of 2.05 W (1200/585). That we have a perfectly scalable heat deletion system based on the thermal extraction system and an aquatuner that can delete 1 kDTU/s at a cost of 0.97 W. You can improve the power output of many of the geysers with a split steam turbine setup, but I wanted to focus on a simpler type of build. I am assuming that the system is limited in that all the input steam must be at or above 125 ☌ and that it only can delete heat down to 95 ☌. The idea is that after accounting for the heat it produces, a steam turbine deletes 1 kDTU/s and produces 1.08 W (785/850). That we have a perfectly scalable thermal extraction system based on a steam turbine that deletes 1 kDTU/s and produces 1.08 W. The less efficient the heat exchanger is, the less power you will get. Specifically, that a gas can be cooled to 95 ☌ with the output water of a steam turbine. The ability to build a lossless counter flow heat exchanger. That the geyser output was the 40% geyser average yield info at. Unless you need the rock, taming a hot water geyser and venting the O2 will produce more power than taming a volcano. Second, I thought the volcano and hydrogen vent would have made more power. I guess people like it because it is easy, but once you have a steam turbine/aquatuner heat deletion system, it is not the best. First I thought the cool slush geyser would have been better. Natural gas geyser: 0.07 kg/s of O2 95 ☌ and 0.9 kW (+CO2, +polluted dirt, +heat, -filtration medium) Infectious polluted O2 vent: 0.098 kg/s of pO2 95 ☌ and 0.0 kW (+germs) Hot polluted O2 vent: 0.098 kg/s of pO2 95 ☌ and 0.1 kW

Hot steam vent: 0.6 kg/s of O2 95 ☌ and 1.7 kWĬool steam vent: 1.2 kg/s of O2 95 ☌ and 1 kW Polluted water vent: 2.4 kg/s of O2 95 ☌ and 2.7 kW (+polluted dirt, -filtration medium) Salt water geyser: 2.3 kg/s of O2 95 ☌ and 1.8 kW (+salt, -dupe interaction)Ĭool slush geyser: 1.2 kg/s of O2 95 ☌ and 1.6 kW (+polluted dirt, -filtration medium) Hot water geyser: 2.5 kg/s of O2 95 ☌ and 1.9 kW I was curious about how the different geyser types rank in terms of O2 and power output and I could not find an easy list, so I decided to write a novel.