![]() ![]() needs its own high-tech test facility for fast neutrons. In fact, the reactor could also be used to test materials for other industries and for materials that could be useful in today’s reactors. “We want to do a quick screening of these technologies,” said Kemal Pasamehmetoglu, executive director of the VTR project. This is exactly what the VTR would provide. With a simulated environment, engineers can bathe the components in neutrons at a pace three or four times faster than they would see in an actual power reactor, pull the parts out for evaluation, and if necessary, make changes and try again. And engineers don’t want to wait to find out. No one is completely sure how all of the components of these new reactors would behave after a few decades in the stew of high-energy neutrons. And many of those designs would run at far lower pressures, making them easier and less expensive to build. They can run reactors that operate at much higher temperatures than are common today, which would produce steam that can be used for many more purposes. They can split a much wider variety of atoms to make energy, including many atoms that were produced in today’s reactors and would otherwise be considered waste. ![]() Those more energetic neutrons have many advantages. When they run, the neutrons-subatomic particles that sustain the chain reaction-are moving with vastly more energy than in today’s reactors, in some cases with 100,000 times more energy. With a pressing need to reduce carbon emissions and a growing worldwide demand for electricity, it is urgent to commercialize advanced reactor technologies, many of which use molten salt, sodium or helium gas (instead of water, as current plants do).įast reactors are quite different than the reactors currently operating in the United States. Just getting under way, the VTR is intended to mimic the conditions that would exist in a category of advanced reactors now under development: fast reactors, which include sodium-cooled fast reactors, molten salt reactors and high-temperature gas reactors. Department of Energy’s Versatile Test Reactor (VTR) is one of those cutting-edge, specialized tools. The technologies and tools that will enable advanced nuclear reactors to become a reality are being developed now. Thanks to u/neema_t for pointing out my error!Įdit 2: Added outfit prices and calculated generation per second, thanks to u/siosilvar for doing the math.The 2020s will be the decade of innovations in nuclear energy. Ev nova problem with cheap reactor upgrade#Given the stats listed above, the Anti-Matter Reactor obviously provides the greatest benefit in terms of overall generation/speed/acceleration boost and the Thorium Reactor is a straight upgrade of the Fission Reactor in every way.īut why would anyone ever equip a fission reactor when two solar panels does almost twice the job for less space? Is there some benefit to the fission reactor that I'm not seeing?Įdit: Updated table to reflect new vs cheap Fission Reactor. Taking a look at the Energy Outfits page on the Fandom Wiki, the following modules allow your ship to generate energy used to make hyperspace jumps (100 energy is needed per jump): Outift ![]() Now that I'm older and looking to min/max a little more than my middle-school self, I've developed a question or two regarding ship-board energy production. ![]() Having played the Escape Velocity games when I was much younger than I am now, I never put a whole lot of thought into the various mechanics of the game. ![]()
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