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Piece by Piece: Building Space Launch System’s Core Stage

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Posted September 21, 2016

The largest rocket stage in the world is coming together piece by piece at NASA’s Michoud Assembly Facility in New Orleans. Large elements for NASA’s Space Launch System are in production and will be joined together to create the rocket’s 212-foot-tall core stage, the backbone of the SLS rocket.

Why is NASA building the world’s most powerful rocket? Because SLS is ready to support both near-term missions in the proving ground around the moon starting in 2018, while at the same time being capable of carrying the very large hardware like landers, habitats and other supplies and equipment needed to explore Mars and other deep space destinations in the 2030s and beyond.

To power a Mars rocket, the core stage carries around 2.3 million pounds of liquid hydrogen and liquid oxygen to fuel the four RS-25 engines. Engineers just completed welding the largest part of the core stage, the 130-foot-tall liquid hydrogen tank that will provide fuel for the first SLS flight in 2018, but there’s still work to ready the tank for its maiden voyage.

Engineers just completed welding the liquid hydrogen tank that will provide fuel for the first SLS flight in 2018. The tank measures more than 130 feet tall, comprises almost two-thirds of the core stage and holds 537,000 gallons of liquid hydrogen -- which is cooled to minus 423 degrees Fahrenheit. Credits: NASA/Michoud/Steven Seipel

Engineers just completed welding the liquid hydrogen tank that will provide fuel for the first SLS flight in 2018. The tank measures more than 130 feet tall, comprises almost two-thirds of the core stage and holds 537,000 gallons of liquid hydrogen — which is cooled to minus 423 degrees Fahrenheit.
Credits: NASA/Michoud/Steven Seipel

“Building the core stage is similar to building a house,” said Joan Funk, SLS core stage lead at NASA’s Marshall Space Flight Center in Huntsville, Alabama. “With the massive, welded elements coming off the Vertical Assembly Center at Michoud, we’ve laid the foundation, framed the walls and put up the roof. The big items are in place. Now it’s time to get to work on the inside.” That’s where engineers will clean and prime each element before beginning the internal integration.

Michoud’s Vertical Assembly Center, the largest spacecraft-welding tool in the world, is welding many of the core stage’s main elements — the forward skirt, the liquid oxygen tank, the liquid hydrogen tank and the engine section. The core stage’s fifth element, the intertank, which is bolted, is also being built at Michoud. The Boeing Company, headquartered in Chicago, is the prime contractor building the core stage, but to build the stage, Boeing has worked with 442 businesses across America, including 297 small businesses.

“When welding is complete, these structures still have to go through more processing to turn them into functional parts of the rocket,” said Funk. “The core stage has parts with very different functions from housing the flight computer and primary avionics to holding the fuel to supporting the four RS-25 engines.”

The final manufacturing processes and outfitting for each part of the core stage varies with the section’s function. Wet structures — elements that hold fuel, or the liquid oxygen and liquid hydrogen tanks — are put through “proof tests” to assure manufacturing quality. The liquid oxygen tank is hydrostatically tested and filled with water; and the liquid hydrogen tank is pneumatically tested.

The liquid oxygen tank is the second tank that makes up the core stage, which towers more than 200 feet tall with a diameter of 27.6 feet. The liquid oxygen tank holds 196,000 gallons of the rocket's oxidizer -- liquid oxygen -- which is cooled to minus 297 degrees Fahrenheit. Earlier in the year, engineers completed the liquid oxygen confidence article, which is identical to the test and flight version of the tank that will be welded in the coming weeks. Credits: NASA/Michoud/Steven Seipel

The liquid oxygen tank is the second tank that makes up the core stage, which towers more than 200 feet tall with a diameter of 27.6 feet. The liquid oxygen tank holds 196,000 gallons of the rocket’s oxidizer — liquid oxygen — which is cooled to minus 297 degrees Fahrenheit. Earlier in the year, engineers completed the liquid oxygen confidence article, which is identical to the test and flight version of the tank that will be welded in the coming weeks.
Credits: NASA/Michoud/Steven Seipel

After testing, the tanks and dry structures — elements that don’t hold fuel, or the forward skirt, intertank and engine section — are cleaned, primed and readied for the “work on the inside.” Much like a house being constructed, the core stage is outfitted with wiring, plumbing and insulation.

The dry structures house flight computers, cameras and avionics — or the “brains” of the rocket. In a house, wiring can carry power or television and internet data from room to room. In the SLS’s core stage, 45 miles of wire cabling serves a similar purpose, carrying power and data from element to element powering flight computers, cameras, sensors, avionics and other electronics housed in the dry structures.

The core stage’s plumbing contains lines that deliver the propellant and oxidizer from the tanks to the engines. Each dry structure also contains purge vent lines and hazardous gas lines designed to eliminate dangerous gases building up in the dry structures prior to launch.

“The dry structures are cram-packed full of equipment and the domes of the tanks take up a lot of the room inside the dry structures,” said Funk. Racks, cameras, sensors, vent lines, wire cabling, valves, shelves, couplings, and more fill the core stage’s dry structures to near capacity. With every inch planned, equipment is mounted and wiring is placed methodically, accounting for time, space, accessibility and much more. When the dry structures are ready to be “stacked,” or joined to the other elements, there isn’t much room to spare.

Before the elements can be stacked, insulation — which is more important to a rocket than to a house — is applied. Not only does NASA’s thermal protection system give the rocket its signature orange color, but more importantly, it protects the core stage from the extreme temperatures encountered during launch and maintains the fuels’ extremely low temperatures. The liquid hydrogen is chilled to minus 423 degrees Fahrenheit and the liquid oxygen is chilled to minus 297 degrees.

Where the rubber meets the road, the engine section is the business end of the core stage. It houses the four RS-25 engines -- formerly space shuttle main engines, the most reliable rocket engines ever built -- that produce more than 2 million pounds of thrust during launch. The engine section also houses the avionics used to steer the engines and is an attachment point for the solid rocket boosters. Credits: NASA/Michoud/Steven Seipel

Where the rubber meets the road, the engine section is the business end of the core stage. It houses the four RS-25 engines — formerly space shuttle main engines, the most reliable rocket engines ever built — that produce more than 2 million pounds of thrust during launch. The engine section also houses the avionics used to steer the engines and is an attachment point for the solid rocket boosters.
Credits: NASA/Michoud/Steven Seipel

How do those elements finally come together to form the 212-foot-long core stage? With the initial wiring, plumbing and insulation complete, the elements are divided into two sections for stacking. Each section is stacked vertically, with elements bolted to one another using segmented support rings welded to each element, providing stiffness. The liquid hydrogen tank sits atop the engine section to create the aft section, and the forward skirt and intertank are bolted to the top and bottom of the liquid oxygen tank to create the forward section.

When complete, engineers “break over” the sections, or move them to a horizontal position, for their final assembly. Final wiring, plumbing and insulation are installed after the forward section is joined to the aft to complete the core stage assembly.

Source: NASA

 

 

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