The first Vulcan rocket launch will carry a private lander to the moon

The United Launch Alliance’s Vulcan rocket is scheduled to launch for the first time on 8 January, carrying the Peregrine lander to the lunar surface

By Leah Crane

NEW SCIENTIST

5 January 2024

A United Launch Alliance Vulcan rocket is being prepared to launch from Cape Canaveral in Florida

UPI / Alamy Stock Photo Provider: Alamy Live

The flurry of missions to the moon in 2024 is starting big with the first launch of the new Vulcan rocket. The launch, planned for 8 January, will carry Astrobotic’s Peregrine lander to the moon in the first mission of NASA’s ambitious Commercial Lunar Payload Services (CLPS) programme.

Vulcan was built by the United Launch Alliance (ULA), a collaboration between Boeing and and Lockheed Martin. Prior to the arrival of SpaceX on the scene, ULA was a dominant force in the US space launch business, but in recent years SpaceX has performed the majority of US launches.

Vulcan could be ULA’s opportunity to snatch back some of that market share, which is particularly important for it because the company is now for sale. Potential buyers include Jeff Bezos’s space flight company Blue Origin, among others. If all goes well with this launch, there are six more planned for 2024.

International fleet of spacecraft is heading to the moon in 2024

The launch is meant to shuttle the Peregrine lander to the lunar surface. If it is successful, this will mark the first time a private company has successfully landed on the moon. The lander carries a variety of scientific instruments, including sensors to study lunar water and radiation on the surface of the moon, both of which are key to understand for future human exploration. The CLPS programme includes many other moon missions in the coming years, which will make complementary measurements to prepare for a sustained human presence on the moon.

The rocket also has two particularly controversial payloads aboard – capsules of human cremains being sent to space by a company called Celestis, which provides what it called “memorial spaceflights”. One of these capsules contains the ashes of Star Trek creator Gene Roddenberry and actors James Doohan and Nichelle Nichols, due to be placed in orbit around the sun, and the other contains other human ashes bound for the moon.

Buu Nygren, the leader of the Navajo Nation, sent a letter to the US government objecting to the inclusion of this capsule, stating: “The placement of human remains on the moon is a profound desecration of this celestial body revered by our people.” NASA responded that because this is a private mission, the agency does not have power over what payloads it carries.

ULA says its Vulcan rocket is finally ready to fly

January 6, 2024 Will Robinson-Smith

The United Launch Alliance Vulcan rocket is transported from the Vertical Integration Facility (VIF) to Space Launch Complex-41 at Cape Canaveral, Florida, in preparation for the certification mission (Cert-1). The mission will launch the Astrobotic Peregrine commercial lunar lander, as part of NASA’s Commercial Lunar Payload Services (CLPS) initiative, into a highly elliptical orbit more than 220,000 miles (360,000 km) above Earth to intercept the Moon and carry a Celestis Memorial Spaceflight Payload into deep space. Image: ULA

Nearly a decade of planning, designing, assembly and testing for United Launch Alliance (ULA) is about to culminate in the first launch of its Vulcan rocket. The maiden flight of the launch vehicle is set for Monday, Jan. 8, at 2:18 am EST (0718 UTC) from Space Launch Complex 41 at Cape Canaveral Space Force Station.

The fully assembled rocket emerged from the Vertical Integration Facility around 10:40 a.m. EST on Friday to travel the roughly 500-meter journey to the launch pad. After the 61.6-meter-tall (202 feet) rocket completed its trek, ULA teams spent the rest of the day performing leak checks on the umbilicals that will fuel the rocket and checking out the guidance and flight termination systems.

Onboard, the primary payload, Astrobotic’s Peregrine lunar lander, is awaiting its ride to the Moon. It was hoisted atop the rocket inside the 15.5-meter-long (51 feet) payload fairing, manufactured by Beyond Gravity, on Dec. 20. Peregrine will be launched into a trans-lunar injection orbit to begin its journey to the Moon before the Centaur 5 upper stage continues on with Celestis Memorial Spaceflight’s “Enterprise Flight” to a heliocentric orbit around the Sun.

Mark Peller, ULA vice president of Vulcan Development, described the pending launch as a defining moment for many in the ULA company.

“It’s terribly exciting. It’s one of these once-in-your-career opportunities for most people and many people go through their whole career without ever getting this opportunity,” Peller said. “It’s been a lot of hard work, but it’s tremendously gratifying and it’s really helped us at ULA obviously develop our capabilities internally to bring new products to market.”

This version of the Vulcan rocket, a VC2S variant, is 61.6 meters (202 feet) tall and is initially powered by a combination of two Northrop Grumman GEM 63XL solid rocket boosters and two, methane/oxygen-fueled BE-4 engines from Blue Origin. The upper stage is powered by a pair of Aerojet Rockedyne-provided RL10C-1-1A engines that burn a combination of liquid oxygen and liquid hydrogen.

Starting in 2025, the Centaur 5 will use the upgraded RL10C-X engines that are currently being developed and tested by Aerojet Rocketdyne about 150 miles south of the Cape near West Palm Beach, Florida.

The next few days will be a flurry of activity. On Sunday, the countdown to launch will start by powering on the Vulcan rocket at 3 p.m. EST (2000 UTC), 11 hours prior to liftoff. The launch complex will be cleared at L-6 hours (8 p.m. EST, 0100 UTC) and an hour later, they will start chilling the feed lines ahead of the start of tanking.

Vulcan is loaded with 454,000 kg (1 million lbs) of propellant, which is a combination of methane, liquid oxygen and liquid hydrogen. It weighs 663,367 kg (1,462,474 lbs.) once it’s fully fueled.

ULA’s Vulcan rocket rolls out of its assembly building on Jan. 5, 2024. Photo: Adam Bernstein/Spaceflight Now.

Gary Wentz, ULA vice president of Government and Commercial Programs, said tanking will be completed at L-2 hours (12:00 a.m. EST, 0500 UTC). During a media teleconference about the mission on Friday, Wentz was asked about a more detailed timeline, but declined to go into more specifics.

This will be the first time a major U.S. rocket has been introduced without the launch company providing a countdown timeline to the news media. ULA was also limiting news media access to countdown audio and video of the rocket to the final hour of the countdown after the propellant loading process will be complete.

“This is a flight test. This is our first test. The initial timeline that we have had some margin in it and over time, those timelines will change and I imagine more detail, as we go through the process, will come out,” Wentz said. “But right now, we’ll say there’s some margin built into the timelines and so, we’re going to work through that.”

Wentz noted that there is a planned 60-minute hold at T-7 minutes, during which the launch team will assess their technical readiness.

While the launch is currently planned for 2:18 a.m. EST (0718 UTC) on Jan. 8, there are multiple backup opportunities available to ULA:

• Jan. 8 – 2:18 a.m. EST / 0718 UTC (45 min. window)
• Jan. 9 – 12:15 a.m. EST / 0515 UTC (9 min. window)
• Jan. 10 – 12:12 a.m. EST / 0512 UTC (1 min. window)
• Jan. 11 – 12:14 a.m. EST / 0514 UTC (3 min. Window)

Wentz said the varying times are driven by a combination of “orbital mechanics and us being able to rendezvous for the lunar injection.”

“As we go through the flow, the number of back-to-back attempts will depend upon how far we go into the count, how much consumables/commodities we actually expend in the scrub process, assuming it’s a weather delay or something like that,” Wentz said.

He added that if none of those dates work out, the next launch opportunity opens on Jan. 23.

Ready for flight

ULA President and CEO Tory Bruno formally announced Vulcan to the world on April 13, 2015, about seven months after its announced partnership with Blue Origin to acquire BE-4 engines to power the booster stage of this new rocket. The pivot away from the Russian RD-180 engines used on the Atlas 5 rocket came after pressure from the U.S. Congress following Russia’s invasion of Crimea in 2014.

The rocket was planned to make its debut in 2019, but would go on to encounter years of delays in development as well as delays in the delivery of the BE-4 engines themselves. During a press briefing on Friday, Astrobotic CEO John Thornton said the legacy of ULA, which boasts a 100 percent mission success rate since its inception in 2006, was a big reason they chose Vulcan as their ride to space.

“Vulcan has a new name, but it really is an upgraded Atlas 5, so that gives us great comfort in that as well,” Thornton said. “They’ve been a fantastic partner to us over the years in development of this capability in parallel with development of their rocket.”

Thornton added that because they are also operating on a constrained budget, they had to find creative ways to pay for their flight to the Moon. He said the risk of being on the debut flight of Vulcan helped a great deal with that.

“We chose United Launch Alliance’s first flight of Vulcan because we believe so much in the company and we’re very, very confident that this mission will be successful,” Thornton said. “And, of course, that came with some relief on the price and that makes this mission possible.”

Thornton didn’t go into detail on how much Astrobotic paid for the ULA flight, but NASA is paying Astrobotic $108 million to ferry its five payloads to the lunar surface as part of its Commercial Lunar Payload Services (CLPS) program. That was an increase from the original $79.5 million for 14 NASA payloads. The additional cost stemmed from supply chain impacts of COVID-19 and a shifting of the landing location in 2022, according to NASA’s Joel Kearns, and the offloaded payloads will fly on other CLPS missions.

Wentz added that Vulcan is predominantly legacy hardware with a series of upgrades or variants to them, which ULA believes helps instil further confidence.

“The only hardware that hasn’t flown prior to this flight is the BE-4 engine. All the other, or variants there to, have flown on either Atlas or Delta flights on missions for other customers,” Wentz said. “So, that gave us confidence to be able to offer this to support NASA and Astrobotic’s missions.”

Preparing for what comes next

This first launch for ULA’s Vulcan rocket is a crucial proving ground for the company as it looks towards the critically important missions that are part of the U.S. Space Force’s National Security Space Launch (NSSL) program. Vulcan needs to complete two certification flights before it can launch its first NSSL mission.

After the Peregrine flight checks the box for Cert-1, ULA aims to launch Sierra Space’s Dream Chaser spaceplane to the International Space Station on the Cert-2 mission. Peller said after Cert-1 launches, they set aside 60 days for a data review and to ensure they’re ready to move on.

United Launch Alliance’s Vulcan rocket approaches the pad at Space Launch Complex-41 ahead of its planned launch on Monday, Jan. 8. Image: ULA

They hope to launch the Cert-2 mission around April, a month currently set to feature another ULA mission to the ISS: the launch of the Crew Flight Test mission for Boeing’s Starliner spacecraft. It’s unclear if both missions would launch within the same month.

Wentz said ULA has six Vulcan flights currently on the 2024 manifest with the four non-certification flights all poised to be NSSL missions. In addition to that, the company is also planning to fly nine Atlas 5 rockets and the final Delta 4 Heavy rocket.

“Next year, the rate increases to a total of on the order of 28 launches for the year,” Wentz said. “We’re also putting in place a secondary capability where we can do vertical integration of a second vehicle in parallel. And once that capability is brought on board, our flight rate will increase.”