SLS: Crucial test for Nasa's 'mega-rocket'

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Core stage installed on the B-2 test standImage source, NASA
Image caption,

The orange core stage was filled with more than 700,000 gallons of rocket propellant

The core of a giant Nasa rocket that will return astronauts to the Moon has undergone a crucial test.

For the first time, engineers fully loaded a core stage of the Space Launch System (SLS) rocket with super-cold liquid propellant, controlled it and then drained the tanks.

That propellant is fuel and an oxidiser - a chemical that makes the fuel burn.

Engineers wanted to check things worked as expected before the SLS makes its maiden flight in about a year's time.

It was part of a testing programme known as the Green Run, that is being carried out at Nasa's Stennis Space Center, near Bay St Louis in Mississippi.

This evaluation, known as the wet dress rehearsal (WDR), was the seventh of eight tests on the core stage. Nasa said the rocket responded well to the propellant being loaded. But the test experienced an unexpected shutdown a few minutes earlier than was planned.

However, the completion of the WDR should set up the eighth and final test - a "hotfire" - where all four RS-25 engines at the base of the core will be fired together for the first time.

This very rocket segment will loft the first mission in Nasa's Moon exploration plan - known as Artemis. This mission, which has been scheduled for November 2021, will send the next-generation Orion spacecraft on a loop around Earth's only natural satellite.

There will be no crew aboard for this test flight. But the third Artemis mission, in 2024, will land the first humans on the lunar surface since the Apollo 17 mission in 1972.

The Green Run helps ensure any issues are ironed out before the complex rocket segment is transported to Florida to prepare it for launch.

Over the course of several hours, engineers at Stennis loaded the core stage with more than 700,000 gallons (roughly 2.6 million litres) of liquid hydrogen and oxygen.

"This is an incredibly exciting time," said Jim Maser, senior vice-president at Aerojet Rocketdyne, which builds the RS-25 engines. "We're really getting to some of the most significant aspects of the testing programme."

The rocket section is anchored to a giant steel structure called the B-2 test stand, which was once used to test engines for the massive Saturn V rocket that carried astronauts to the Moon in the 1960s and 70s.

The propellant was brought to the site on six barges via the waterway that winds through the grounds of Stennis Space Center.

The barges were moored near the test stand while the super-cold (cryogenic) propellants aboard were piped into the core stage.

Hydrogen and oxygen are gaseous at room temperature, but gases take up lots of space. Turning them into liquids allows an equivalent amount to be stored in a smaller tank.

This requires the hydrogen fuel to be cooled to minus 253C (minus 423F) and the oxygen (the fuel's oxidiser) to minus 183C (minus 297F).

Image source, NASA
Image caption,

The SLS core stage was lowered onto the B-2 test stand at Stennis Space Center in January

After being filled, the tanks needed to be topped up - replenished - continually because liquids at such low temperatures boil off over time.

During the test, liquids were due to flow through the turbopumps - which feed propellant to the engine combustion chambers - and the engines themselves. This helps prepare the systems to be started.

It is all designed to mimic as closely as possible what would happen in the hours prior to a real flight. "We're just trying to get as much data as we can so that, on the next run, we get further. And we want to find anything that could be improved during this wet dress to prepare for hotfire," Ryan McKibben, Green Run test conductor for Nasa, told BBC News.

Image source, NASA
Image caption,

The SLS core stage at its factory in New Orleans, before it was transported to Stennis Space Center for testing

On its Artemis blog, external, Nasa said: "First looks at the data indicate the stage performed well during the propellant loading and replenish process."

While all this was happening, teams from Nasa and Boeing - the prime contractor for the SLS - carried out a simulated launch countdown. They were due to take the count all the way to the T-minus (time remaining) 33 seconds point.

But Nasa said the test ended a few minutes short of the planned countdown duration. Teams are evaluating the data to pinpoint the exact cause of the early shutdown.

Speaking in October, John Shannon, vice president and SLS programme manager at Boeing, explained: "We'll spend about two weeks looking at the data to make sure all the systems behaved as expected.

"We'll go out and inspect the vehicle, make sure there are no surprises."

The SLS in numbers

Image source, NASA
  • The rocket will stand 98m (322ft) tall in its initial, or Block 1, configuration

  • The Block 1 SLS can send more than 27 tonnes (59,500 pounds) to lunar orbits - the equivalent of 11 large sports utility vehicles (SUVs)

  • A future version of the SLS, called Block 2 Cargo, will launch 46 tonnes (101,400 pounds) to the Moon - that's 18 large SUVs

  • The SLS will produce 8.8 million pounds (39.1 Meganewtons) of thrust in its Block 1 configuration

  • Four RS-25 engines sit at the base of the core stage; they're the same ones used in the space shuttle

If the data looks good, engineers will proceed with the "hotfire".

The SLS rocket consists of a huge core stage with two smaller boosters strapped to the sides. The four powerful RS-25 engines at its base are the same type used by the now-retired space shuttle orbiter.

The launcher provides the raw power needed to send Orion into space and then hurl it towards the Moon.

Last month, engineers at Stennis removed and replaced a component called a clutch on one of four pre-valves, which supply liquid hydrogen to the RS-25 engines. The pre-valve had showed inconsistent performance during tests.

Officials have been planning to ship the giant core to its launch site at Florida's Kennedy Space Center by 14 January to keep the SLS on track for its November flight.

Last week, Nasa said the Artemis-1 mission remained on track to launch in November 2021, external

The Green Run has largely proceeded smoothly; there was a five-week stop due to Covid-19. In addition, work at the site had to be shut down six times due to tropical weather, given the particularly active hurricane season.

"It's been extremely important for us to hold the schedule," John Honeycutt, SLS manager at Nasa, said during a press conference in October.

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