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will: solid? mika: pwede! will: liquid? mika: pwede din! will: HA?!?!?! SOLID TAPOS LIQUID PWEDE ANO YON?!? 👹💥 HAHAHAHAHAHA SOAFER OA TALAGA

265,517 次观看 • 1 年前 •via X (Twitter)

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🚨 THE ENERGY TECHNOLOGY THAT COULD POWER CIVILIZATION FOR THE NEXT 100 YEARS ISN'T FUSION. Molten Salt Reactors use molten fluoride or chloride salts as coolant and in some designs, the nuclear fuel itself is dissolved directly into that salt. This is very different from traditional reactors. Instead of solid fuel rods sitting in water under high pressure, these systems run at much higher temperatures but at atmospheric pressure, which dramatically reduces the risk of explosions or meltdowns. The salt can flow over solid fuel, or the fuel can be mixed directly into the coolant. Both approaches are being actively developed. Why this matters: • MSRs operate at high temperatures, making them potentially much more efficient at generating electricity and process heat • Low-pressure operation makes them inherently safer than conventional water-cooled reactors • Some designs can burn existing nuclear waste or use thorium as fuel • The technology could support everything from advanced power generation to hydrogen production and industrial heat The deeper implication: For decades, nuclear power has been dominated by one basic design concept. Molten salt reactors represent a fundamental rethink using a liquid that can act as both coolant and fuel. This opens the door to reactors that are safer, more flexible, and potentially capable of solving some of nuclear energy’s biggest historical challenges (waste, fuel efficiency, and public perception of safety). While still in development, MSRs are one of the most promising pathways for next-generation nuclear power. We may be looking at the early stages of a genuinely new chapter in how humanity generates clean, reliable energy. Do you think molten salt reactors will become a major part of the future energy mix, or will traditional designs continue to dominate? Follow for more frontier energy technology and next-generation nuclear systems.

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🚨ARTEMIS II UPDATE - NASA Repairs Helium Flow Issue Inside VAB; Preparing For SLS Rollout After returning to the VAB on February 25th; NASA engineers traced the helium flow issue to a seal inside a quick disconnect in the launch vehicle stage adapter. The seal had obstructed the pathway that allows helium to flow from ground systems into the upper stage. Technicians removed and reassembled the quick disconnect hardware and have already begun validating the repair by running helium at a reduced flow rate through the system. Engineers are now assessing what caused the seal to become dislodged to ensure the issue does not recur. Meanwhile, additional work is underway across the vehicle: • Activating a new set of Flight Termination System (FTS) batteries ahead of full retesting • Replacing flight batteries on the upper stage, core stage, and solid rocket boosters • Charging Orion’s Launch Abort System batteries • Replacing a seal on the core stage liquid oxygen feed system (work began March 2) • Preparing to reassemble the oxygen tail service mast umbilical plate and conduct integrity testing Teams will continue work in the coming weeks as NASA prepares to roll the Space Launch System and Orion spacecraft back to the pad later this month, keeping a potential April launch opportunity in view. 🕘Launch T-0: April 1, 2026 📅Launch Window: 6:24PM - 8:24PM EST 🔁Additional opportunities throughApril FOLLOW for latest Artemis II updates! 📸: Zac (Zachary "Astro" Aubert) for TLP

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20,645 次观看 • 4 个月前