Los equipos de la NASA reemplazan los sellos en el cohete Artemis I Moon y se preparan para las pruebas del tanque

Artemis I SLS en la plataforma de lanzamiento 39B

Un cohete del Sistema de Lanzamiento Espacial (SLS) de la NASA con la nave espacial Orion se ve sobre la plataforma de lanzamiento móvil en el lanzamiento 39B en el Centro Espacial Kennedy de la NASA en Florida. Crédito: NASA/Sam Lott

Después de separar los paneles de tierra y misiles en la fachada por primera vez, se llama corte rapidopara hidrógeno líquido línea de alimentación de combustiblelos equipos ahora han reemplazado los sellos en el Sistema de lanzamiento espacial ([{» attribute=»»>SLS) rocket’s core stage associated with the liquid hydrogen leak detected during the Artemis I launch attempt on September 3.

Both the 8″ line used to fill and drain liquid hydrogen from the core stage and the 4″ bleed line used to redirect some of the propellant during tanking operations were removed and replaced this week.

Coming up next, technicians will reconnect the umbilical plates and perform inspections over the weekend. After that, they’ll begin preparing for a tanking demonstration as soon as Saturday, September 17. This demonstration will allow engineers to verify the new seals under cryogenic, or supercold, conditions that are expected on launch day, before proceeding to the next launch attempt.

Four RS-25 Engines Fired

The four RS-25 engines on NASA’s Space Launch System rocket produce more than 2 million pounds of thrust. The four RS-25 engines last fired during the core stage Green Run hot fire test at NASA’s Stennis Space Center near Bay St. Louis, Mississippi, in March 2021. Credit: NASA/Robert Markowitz

During the operation, teams will practice loading liquid hydrogen and liquid oxygen in the rocket’s core stage and interim cryogenic propulsion stage. They will work at getting to a stable replenish state for both propellants. Teams will confirm the leak has been repaired. They will also perform the kick-start bleed test and a pre-pressurization test to validate that the ground and flight hardware and software systems can perform the necessary functions required to thermally condition the engines for flight. Teams will review the test results and develop strategies for the next launch opportunity after analyzing the data.

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