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One of the biggest obstacles to a mission to Mars is not the distance or travel time. It is the fuel. To send a manned ship, NASA estimates that dozens of Cryogenic propellant tons stored for weeks or months. But those liquids do not behave like on earth: in a vacuum, exposed to heat and without gravity, They are slowly evaporating even if the tank is perfectly sealed. That phenomenon, known as Boil-offforces to release the generated gas so that the pressure does not rise dangerously inside the tank. It is a constant loss that, in a long -term mission, can mean tons of tons of fuel lying to space. Therefore, developing tanks capable of preserving this propellant at safe pressure and without losses, which is known as zero evaporation technology, has become a technical requirement to go beyond the low orbit. Zero evaporation: the technical challenge that separates the orbit low from the rest of the solar system Blue Origin claims to have taken an important step To solve that problem. Jeff Bezos’ company has managed to maintain liquid oxygen and hydrogen in stable conditions, without evaporation, using Hardware flight prototype In earth tests (Blue Origin has not detailed whether it is vacuum thermal cameras or conventional banks). Dave clean announced itits CEO, as part of the lunar permanence program, stating that they already meet all the objectives set by NASA in this area. Click to see the publication in x The result is not less: we talk about conserving hydrogen at 20 Kelvin and oxygen to 90 Kelvin, two extreme temperatures, during sustained periods. This makes Blue Origin – which we know – the first private company that publicly and explicitly communicates a zero evaporation condition in cryogenic propelants. In the absence of this technology to vuele and demonstrate in orbit, what is achieved represents the most tangible advance so far towards tanks capable of storing liquid fuel without losses, a key piece to operate ships on the moon or Mars. Storing loss without space is not just a matter of good materials. It is a constant battle against physics. Even the best thermal insulation ends up giving in. Therefore, the path to zero evaporation goes through active solutions that cool the deposit from within. NASA has investigated two: The sub -housing jet and microgotes injectiontwo methods that allow to reduce the steam temperature and prevent internal pressure. Blue Origin has not detailed which of the two uses, but the logic points to the sub -deputy jet, The only tested method So far in microgravity by NASA. It consists of directing a very cold liquid jet where the steam is accumulated. When condensing it, it is avoided that the pressure rises and it is not necessary to release gas. It is a technologically complex system, but so far it has demonstrated greater efficacy and stability in test conditions. Long before Blue Origin announced its advance, NASA had already tested these systems In space. The ZBOT program, deployed aboard the International Space Station, allowed us to observe how a microgravity propellant tank behaves. One of its main discoveries was that the Interaction between the sub -housing jet and steam It does not follow the classic rules we know on earth. The Blue Origin cryogenic system during the ground tests of its zero evaporation technology In ZBOT-1, not only was it possible to control internal pressure with active mixture. Unexpected phenomena were also detected as cavitation, sudden formation of bubbles or flow alterations that could affect the stability of the system. That information – obtained with sensors, cameras and laser measurement systems – has served several companies, including Blue Origin, to design tanks capable of functioning stable in extreme environments. Spacex has not yet announced a zero evaporation solution as such. But that It does not mean that I am not working on it. In collaboration with NASA, The company has developed A cryogenic architecture oriented to reduced evaporation, which has already been validated in flight. In March 2025Starship made a Internal transfer of liquid oxygen in spacedemonstrating that he could move fuel and control his pressure without losing it excessively. NASA Artistic Recreation Although Spacex and Blue Origin are addressing the same general challenge – almaceinar propelants in space without losses – do not work with the same fuels or face the same level of thermal difficulty. Spacex uses liquid methane and liquid oxygen, while Blue Origin works with liquid hydrogen and liquid oxygen. That difference is key. Liquid hydrogen must be maintained to one much lower temperature than that of methane or even that of oxygen. In addition, hydrogen is less dense, more prone to escape and much more difficult to isolate. Achieving zero evaporation conditions with hydrogen is therefore a major technical challenge. The advance announced by Blue Origin is not only significant by the result, but by the type of fuel with which it has achieved it. When talking about going to Mars, you often think of rockets, habitats or space costumes. But one of the most serious bottleneck is in something much more basic: conserve fuel. In a long -lasting mission, the propellant is not used at once. You have to store it, transfer it and, many times, keep it operational for weeks without being lost by evaporation. That makes zero evaporation technology a key piece for both future interplanetary missions and missions Artemis To the moon. Images | Blue Origin (1, 2) | POT | Xataka with Grok In Xataka | Spain is very excited about the three eclipses that will arrive between 2026 and 2028. The government is worried