Boeing’s Starliner crew capsule, which has been plagued by years of setbacks and cost overruns amounting to roughly $1.5 billion, is about to take its first flight with humans on board. Boeing was chosen 10 years ago alongside SpaceX to develop a spacecraft that could ferry astronauts from US soil to the International Space Station (ISS), thus allowing NASA to end its reliance on Russia for crewed flights. The companies were each awarded a fixed-price contract under NASA’s Commercial Crew Program: $4.2 billion to Boeing for its CST-100 (Starliner) and $2.6 billion for SpaceX’s Crew Dragon.
Their initial deadline of 2017 proved to be a bit too ambitious. SpaceX managed its first crewed flight in 2020 — and about a dozen since — while Boeing has struggled to get its Starliner capsule off the ground. But as soon as May 6, it’ll finally have a crewed flight under its belt.
Starliner is now at Cape Canaveral Space Force Station’s Launch Complex-41 attached to the ULA Atlas V rocket that’ll send it on its way to the ISS. Liftoff is planned for 10:34PM ET on Monday, May 6. The capsule will be carrying two NASA astronauts: Butch Wilmore, the mission’s commander, and Suni Williams, who will serve as pilot.
NASA
Not only is it Starliner’s first crewed flight, but this test is only its third flight ever. The spacecraft (without anyone aboard) successfully demonstrated its ability to reach, dock and undock from the ISS in spring 2022 when it conducted its second Orbital Flight Test. On its previous attempt, in 2019, Starliner failed to make it all the way to the ISS thanks to a software issue that resulted in it burning too much fuel (one of a few problems Boeing missed after it opted at the time not to do end-to-end testing).
It’s suffered numerous other problems, too, in the years since Boeing bagged the NASA contract, causing the company to slip far behind SpaceX. There was a toxic fuel leak during a 2018 test. Then corrosion caused valves in the propulsion system to stick, waylaying Boeing’s plans for a 2021 launch, asArs Technica reported earlier this year. Problems with the spacecraft’s parachute deployment system derailed plans for a launch last summer, and the team had to remove around a mile of flammable tape.
Boeing has also had its fair share of troubles beyond Starliner during this time, facing increased scrutiny into the safety of its airplanes — particularly the 737 Max line — after two fatal crashes in 2018 and 2019, on top of other less serious incidents. Most recently, a panel blew off a 737 Max 9 mid-flight in January, forcing it to make an emergency landing.
The May 6 flight marks a major step toward Starliner’s certification as a crew transport system that NASA can actually put into its rotation for trips to the ISS. That will give the space agency the redundancy it’s looking for; with both Crew Dragon and Starliner in operation, it’ll always have a backup option in case something happens to one of them. Both NASA and Boeing have been adamant that the capsule has been put through an exhaustive review process and is ready to support astronauts. NASA wrapped up its Crew Flight Test Readiness Review of Starliner on April 25.
“The first crewed flight of a new spacecraft is an absolutely critical milestone,” NASA associate administrator Jim Free said during a briefing on the completion of the review. “The lives of our crewmembers Suni Williams and Butch Wilmore are at stake — we don’t take that lightly at all.” The latest review is “the culmination of a detailed review season that has really thoroughly established that we are really ready to go on this flight,” said NASA chief flight director Emily Nelson.
NASA/Frank Michaux
It’s expected to take about 24 hours for Starliner to reach the ISS after it lifts off, and as this is a test flight, its onboard crew will have a lengthy task list of systems and equipment checks to complete across every phase of the journey. While Starliner can operate autonomously, the crew will test its manual controls and make sure it’s in good shape for manual abort scenarios. After Starliner docks to the space station, the astronauts will spend about a week there working with the current crew, Expedition 71.
Then, they’ll undock from the orbiting lab and head home — and put Starliner through the test of reentry and landing. A few potential landing sites in the southwest US have been picked out, including the White Sands Missile Range in New Mexico.
Wilmore and Williams have been training for Starliner’s first flight for years. “They know the vehicle inside and out, and they’ve been part of the test environment that’s developed the Starliner capability,” said Steve Stich, manager for NASA’s Commercial Crew Program. All involved in last Thursday’s briefing acknowledged that they may encounter some unexpected challenges, and that there’s much to be learned from this first crewed flight. “It’s a good reminder for all of us that the team has practiced, run sims, run models, but there’s nothing like flying in the space environment,” said Free.
The NASA and Boeing officials also expressed their confidence that the craft itself and the teams handling its journey are well-prepared for the job. The astronauts echoed these sentiments upon arriving at the Kennedy Space Center in Florida. “We wouldn’t be here if it weren’t ready,” Wilmore said, addressing questions from the press. “We are ready, the spacecraft’s ready, and the teams are ready.”
If Starliner for whatever reason can’t launch on the 6th, it’ll have backup opportunities on May 7, 10 and 11. After the Crew Flight Test is complete and the astronauts are back home, NASA will get to work certifying the spacecraft for future missions bringing crews to and from the ISS. It’s currently targeting 2025 for Starliner to begin duty.
“I don’t want to get too far ahead because we still need to fly a successful mission,” said Free ahead of Starliner’s launch, “but when we do, and when we certify Starliner, the United States will have two unique human space transportations that provide critical redundancies for ISS access.”
This article originally appeared on Engadget at https://www.engadget.com/boeings-starliner-spacecraft-may-finally-take-its-first-crewed-flight-next-week-140056150.html?src=rss
On March 8, a piece of space debris plunged through a roof in Naples, FL, ripped through two floors and (fortunately) missed the son of homeowner Alejandro Otero. On Tuesday, NASA confirmed the results of its analysis of the incident. As suspected, it’s a piece of equipment dumped from the International Space Station (ISS) three years ago.
NASA’s investigation of the object at Kennedy Space Center in Cape Canaveral confirmed it was a piece of the EP-9 support equipment used to mount batteries onto a cargo pallet, which the ISS’ robotic arm dropped on March 11, 2021. The haul, made up of discarded nickel-hydrogen batteries, was expected to orbit Earth between two to four years (it split the difference, lasting almost exactly three) “before burning up harmlessly in the atmosphere,” as NASA predicted at the time. Not quite.
The roof-piercing debris was described as a stanchion from NASA flight support equipment used to mount the batteries onto the cargo pallet. Made of the metal alloy Inconel, the object weighs 1.6 lbs and measures 4 inches tall and 1.6 inches in diameter.
Hello. Looks like one of those pieces missed Ft Myers and landed in my house in Naples. Tore through the roof and went thru 2 floors. Almost his my son. Can you please assist with getting NASA to connect with me? I’ve left messages and emails without a response. pic.twitter.com/Yi29f3EwyV
Otero told Fort Meyers CBS affiliate WINK-TV that he was on vacation when his son told him that an object had pierced their roof. “I was shaking,” he said. “I was completely in disbelief. What are the chances of something landing on my house with such force to cause so much damage. I’m super grateful that nobody got hurt.”
NASA says it will investigate the equipment dump’s jettison and re-entry to try to figure out why the object slammed into Otero’s home instead of disintegrating into flames. “NASA specialists use engineering models to estimate how objects heat up and break apart during atmospheric re-entry,” the space agency explained in a news release. “These models require detailed input parameters and are regularly updated when debris is found to have survived atmospheric re-entry to the ground.”
Most space junk moves extremely fast, reaching up to 18,000 mph, according to NASA. It explains, “Due to the rate of speed and volume of debris in LEO, current and future space-based services, explorations, and operations pose a safety risk to people and property in space and on Earth.”
This article originally appeared on Engadget at https://www.engadget.com/nasa-confirms-its-space-trash-pierced-florida-mans-roof-204056957.html?src=rss
On March 8, a piece of space debris plunged through a roof in Naples, FL, ripped through two floors and (fortunately) missed the son of homeowner Alejandro Otero. On Tuesday, NASA confirmed the results of its analysis of the incident. As suspected, it’s a piece of equipment dumped from the International Space Station (ISS) three years ago.
NASA’s investigation of the object at Kennedy Space Center in Cape Canaveral confirmed it was a piece of the EP-9 support equipment used to mount batteries onto a cargo pallet, which the ISS’ robotic arm dropped on March 11, 2021. The haul, made up of discarded nickel-hydrogen batteries, was expected to orbit Earth between two to four years (it split the difference, lasting almost exactly three) “before burning up harmlessly in the atmosphere,” as NASA predicted at the time. Not quite.
The roof-piercing debris was described as a stanchion from NASA flight support equipment used to mount the batteries onto the cargo pallet. Made of the metal alloy Inconel, the object weighs 1.6 lbs and measures 4 inches tall and 1.6 inches in diameter.
Hello. Looks like one of those pieces missed Ft Myers and landed in my house in Naples. Tore through the roof and went thru 2 floors. Almost his my son. Can you please assist with getting NASA to connect with me? I’ve left messages and emails without a response. pic.twitter.com/Yi29f3EwyV
Otero told Fort Meyers CBS affiliate WINK-TV that he was on vacation when his son told him that an object had pierced their roof. “I was shaking,” he said. “I was completely in disbelief. What are the chances of something landing on my house with such force to cause so much damage. I’m super grateful that nobody got hurt.”
NASA says it will investigate the equipment dump’s jettison and re-entry to try to figure out why the object slammed into Otero’s home instead of disintegrating into flames. “NASA specialists use engineering models to estimate how objects heat up and break apart during atmospheric re-entry,” the space agency explained in a news release. “These models require detailed input parameters and are regularly updated when debris is found to have survived atmospheric re-entry to the ground.”
Most space junk moves extremely fast, reaching up to 18,000 mph, according to NASA. It explains, “Due to the rate of speed and volume of debris in LEO, current and future space-based services, explorations, and operations pose a safety risk to people and property in space and on Earth.”
This article originally appeared on Engadget at https://www.engadget.com/nasa-confirms-its-space-trash-pierced-florida-mans-roof-204056957.html?src=rss
NASA’s X-59 Quesst supersonic commercial jet, which is being developed by Lockheed Martin, will have its flight test livestreamed as a demonstration of how quiet it can be in the air. The $247.5 million Quesst, whose name is short for Quiet SuperSonic Tech, will be shown on the livestream dramatically emerging from Lockheed Martin's Skunk Works facility in Palmdale, California. NASA has been on a mission since 2018 to prove that its X-59 can fly over cities without producing noise pollution, or sonic booms. This test flight marks an important milestone in the six-year-old project.
The first flight will be streamed on January 12 at 4pm ET on YouTube, as well as the NASA app and the NASA+ streaming service.
The space agency said it will survey people about the noises they hear from the jet during the first flight. It did not specify how it would find these people, or many people it would poll. The data collected will be sent to regulators and used to help propose new rules that limit the use of supersonic jets. The US federal government has blocked all civilian supersonic jets from flying over land for over five decades.
When NASA first announced its quiet supersonic technology project in 2018, administrator Jim Bridenstine said, “This aircraft has the potential to transform aviation in the United States.” While the jet was supposed to first take flight in 2021, the debut today still marks a major milestone in the QueSST mission. By 2027, NASA expects to have more definitive results about how effective the new aircraft technology is at reducing flight noise.
If new laws are eventually passed that permit supersonic jet aircrafts to fly in close proximity to land, high-speed commercial flights could become a reality. Once NASA and Lockheed Martin finalize development of the aircraft, the agency said it will conduct safety evaluations for about nine months. After enough evidence is shared to prove that the Quesst aircraft can be flown safely, NASA plans to expand its flight tests to cities across the US and collect more information about the noise it produces through additional surveys.
This article originally appeared on Engadget at https://www.engadget.com/nasas-new-x-59-plane-could-hit-supersonic-speeds-with-minimal-sonic-boom-210037676.html?src=rss
Russia and the United States have had a strained relationship, at best, in recent years. However, the pair are still working together in one regard: getting crews to the International Space Station (ISS). Roscosmos, Russia's federal space agency, has announced that the two countries will continue partnering on "cross-flights until 2025 inclusive."
Cross-flights involve putting crews from multiple countries onto the same spacecraft. Roscosmos intends always to have at least one of its own representatives in the Russia section of the ISS and at least one NASA representative in the US section. The agency added that the decision was made "to maintain the reliability of the ISS as a whole." The ISS, launched in 1998, is a symbol of US-Russia cooperation after the Cold War and the space race ended.
The news follows NASA's April 2023 announcement that Russia will remain aboard the ISS until 2028. The Director General of Roscosmos, Yuri Borisov, had previously said Russia would pull out of the ISS "after 2024" to focus on creating its own space station. NASA had been preparing for Russia's departure with plans ranging from pulling astronauts from the ISS to figuring out how to control the ISS if Russia took away its thrusters. The US agency has committed to maintaining the ISS until at least 2030.
This article originally appeared on Engadget at https://www.engadget.com/russia-will-assist-nasa-with-iss-space-flights-through-2025-115533326.html?src=rss
It’s been a busy year for spaceflight — the busiest ever, in fact. This fall, space companies once again broke the record for successful orbital launches in a single year with 2023’s 180th flight. That record was broken when SpaceX sent up Starlink satellites on November 22, according to Ars Technica. The number has since climbed to 200.
That pace has been driven in no small part by Elon Musk’s aerospace venture, which set a goal of hitting 100 launches in 2023 and is nearly there, with 92 as of December 7. Private companies have become key players in the new space race, not only vying to serve as launch providers for science and communications missions but also ushering in the era of space tourism (for anyone rich enough to nab a ticket). But spaceflight is hard, especially if you’re trying to change the game with design innovations, and for all the wins in 2023, there have been plenty of hiccups. Here’s a look at how some of the leading private space companies made out this year.
SpaceX
REUTERS / Reuters
SpaceX seemingly didn’t stop once to catch its breath in 2023. The company managed a record-setting run of orbital launches with its reusable Falcon 9 and partially reusable Falcon Heavy rockets, with the lion’s share dedicated to delivering its Starlink internet satellites to orbit. (There are now more than 5,000 of them circling Earth.) SpaceX also delivered payloads for other entities, including NASA, and carried out multiple crewed flights with its Dragon capsule. Four astronauts arrived at the International Space Station in March aboard a Crew Dragon, and Axiom Space contracted SpaceX for a private astronaut mission that flew to the ISS in May.
As for its experimental Starship flights, things were expectedly a bit more volatile. Starship is the biggest and most powerful launch vehicle built to date, and is designed to support future human spaceflight missions, including NASA’s return to the moon as soon as 2025. The spacecraft itself is 165 feet tall, and when stacked on top of the Super Heavy rocket, the two tower at a combined 397 feet. Both Starship and Super Heavy are planned to be fully reusable. It’s all still in development, and after a few years of suborbital flight tests without Super Heavy — Starship has six of its own Raptor engines that enable flight — the vehicle advanced to orbital tests in 2023.
SpaceX launched Starship for the first time in an integrated flight with its Super Heavy rocket on April 20, and there were problems from the moment liftoff began. Multiple engines failed, and when Starship started its flip maneuver that allows for stage separation about 3 minutes in, it just kept spinning. It was eventually given the command to self-destruct, ending the test with an explosion.
The launch left behind a lot of damage on the ground, too, tearing up the launchpad at SpaceX’s Boca Chica test site, creating a sizable crater and starting a 3.5 acre fire on the grounds of a protected wildlife refuge. But for SpaceX, it was still considered a success — its goal was just to clear the tower. Starship made it to an altitude of about 24 miles before it got caught in that uncontrolled spin. Nevertheless, the Federal Aviation Administration grounded Starship after the destructive test, and ordered the company to complete dozens of corrective actions before it could fly again.
Starship did fly again before the end of 2023, and again Starship exploded. This time, though, Starship officially made it to space, climbing to about 92 miles above Earth. It also performed SpaceX’s first attempt at hot staging — where the upper stage begins to fire its engines while still attached to its lower stage — and was able to complete separation from the Super Heavy booster. It fell well short of the planned 90-minute flight, lasting only around eight minutes, but it demonstrated hot staging was possible.
Blue Origin
Blue Origin
Jeff Bezos’ Blue Origin had a strong run between late 2021 and 2022 with its reusable New Shepard suborbital booster and capsule, completing six crewed flights to the edge of space following years of tests and payload missions for industry clients including NASA. But in September 2022, one of its rockets suffered a main engine failure during an uncrewed research mission, and New Shepard spent a subsequent 15 months grounded.
After investigations into the cause of the event, the company’s then-CEO Bob Smith — who is stepping down in the new year — said in June 2023 that New Shepard would again “be ready to go fly within the next few weeks” pending FAA approval. The FAA closed its investigation at the end of September and gave Blue Origin 21 corrective actions to complete before New Shepard could take to the skies again. Around that time, Ars Technica reported that sources close to the matter said Blue Origin was targeting an October return to flight, but that window came and went with no liftoff or further updates. While it was starting to look like Blue Origin wouldn’t fly at all in 2023, the company finally announced New Shepard’s return in mid-December, and pulled off a successful suborbital payload flight on December 19.
It’s mostly been crickets for Blue Origin’s still-in-development New Glenn, as the company races to get it ready for its debut. New Glenn, a partially reusable heavy lift vehicle, is expected to make its inaugural flight sometime in 2024. It’s already been tapped by NASA to send a pair of small satellites to Mars later that year, but the timeline keeps slipping. It was originally supposed to launch in 2020, but was later rescheduled to 2021, then 2022 and now 2024. The company shared some photos of the rocket’s first and second stage being assembled at its Florida factory over the summer, and confirmed to the Orlando Sentinelthat it was still shooting for next year.
Blue Origin has also been busy building engines for another launch provider, United Launch Alliance, which will be used for ULA’s heavy-lift Vulcan Centaur rocket. Both New Glenn and Vulcan will rely on Blue Origin’s BE-4 engine, and have faced delays tied to its development. Most recently, in July, CNBC reported that one of these engines exploded during testing at Blue Origin’s West Texas facility.
United Launch Alliance
REUTERS / Reuters
ULA had a quiet year as well, carrying out only three launches in 2023 with its Atlas V and Delta IV Heavy rockets — down from eight the year before. Both rockets are in the process of winding down their operations ahead of their official retirement. Delta IV Heavy has just one flight left, which is expected to take place in 2024, and all of Atlas V’s remaining flights have been sold and scheduled out over the next several years. One of ULA’s few 2023 launches was the first flight in its partnership with Amazon, and an Atlas V rocket successfully delivered two of the company’s prototype Project Kuiper internet satellites to orbit.
Most of ULA’s attention right now is focused on putting the final touches on Vulcan ahead of its maiden flight. Vulcan has been in development for roughly a decade, and it, too, has faced years of delays. There was some hope it would finally launch in the first half of 2023, with the company targeting liftoff in May, but after the explosion of a Centaur upper stage during tests, it pushed this target to the end of the year. In October, ULA had said it was planning to launch Vulcan for the first time on Christmas Eve from Cape Canaveral, Florida. But, in an update posted this week, the company confirmed Vulcan wouldn't be flying in 2023 after all.
Following a successful WDR, the launch of ULA's first #VulcanRocket flight test and #Cert1 mission is planned for Jan. 8, 2024, pending range approval. The Vulcan VC2S rocket will launch from SLC-41 from Cape Canaveral Space Force Station, Florida. https://t.co/xFQoT0042Vpic.twitter.com/gkHOBFF6UT
The rocket completed some critical tests in December, and is now scheduled to fly on January 8, 2024. Vulcan’s first flight, dubbed Certification-1, will send Astrobotic’s Peregrine lunar lander to the moon. Once Vulcan is in operation, ULA will start ramping up flights again. It’s already got a contract with Amazon for 38 Project Kuiper launches on Vulcan. It just needs to get off the ground first.
Rocket Lab
Rocket Lab
Over the last few years, Rocket Lab has risen as a company to watch in the launch sector. In the first few months of 2023, it seemed on track to beat its 2022 record of nine orbital launches in one year with its Electron rocket. The company told SpaceFlight Now it was targeting 15 launches this time around. It made it to seven by the end of August, but in September, a problem with the rocket’s upper stage resulted in its failure to reach orbit. Rocket Lab has at least three dozen successful Electron flights under its belt, and only a handful of failures, but the latest is the third such failure in as many years.
Whether or not it proves to be a major setback has yet to be seen. The FAA in October cleared Rocket Lab to resume flights following the finalization of its investigation into the issue, which wrapped up in November. According to Rocket Lab, the problem was caused by “the rare interaction” of “three rare conditions” in the low-pressure space environment that created “an unexpected electrical arc” within the power supply system for the engine’s motor controllers, “shorting the battery packs that provide power to the launch vehicle’s second stage.” The company was still able to return to flight before the end of the year. On December 15, an Electron rocket delivered a Japanese satellite to orbit in a mission dubbed “The Moon God Awakens.”
Rocket Lab has been experimenting with different ways to recover its Electron boosters after flight —including mid-air catch attempts via helicopter — as it works toward rocket reusability. It’s also developing a medium-lift, partially reusable launch vehicle, Neutron, that’s expected to be completed in 2024.
Virgin Galactic & Virgin Orbit
Virgin Orbit
Virgin Galactic, founded by Richard Branson, managed a steady cadence of flights this year with its VSS Unity suborbital spaceplane. The rocket-powered craft made six flights in six months in 2023, including its first ever space tourism trip in August. In addition to research missions, it’s now completed a total of four flights with paying tourists on board, all of them completed between this summer and fall.
The company took a bit of a hit on the stock market in December, though, after Branson said he wouldn’t be putting any more of his own money into it. Speaking to the Financial Times, Branson said, “We don’t have the deepest pockets after COVID, and Virgin Galactic has got $1 billion, or nearly. It should, I believe, have sufficient funds to do its job on its own.” Following his comments, shares took a nosedive. But, they’ve since climbed back up.
Virgin Orbit, on the other hand, didn’t fare so well in 2023. Branson’s Virgin Galactic spinoff announced in May that it was shutting down a month after filing for Chapter 11 bankruptcy. The company was formed in 2017 with the intention of becoming a launch provider for small satellite missions. It had a unique approach to getting payloads to space; Virgin Orbit used a modified Boeing 747 plane to launch its rocket, LauncherOne, from the air.
But it struggled to keep up with the competition, and in January, it suffered a failure during what was the first ever orbital launch from the UK. As a result, the satellites it had been commissioned by the UK and US governments to deliver didn’t make it to orbit. It was the company’s second failure out of a total of just six missions, and it proved unable to rebound.
Newcomers hit hurdles
California-based Relativity Space has been working for years to build the first fully 3D-printed reusable rockets, with plans for an eventual medium-to-heavy-lift vehicle that could send missions to the moon and Mars. Its first rocket, Terran 1, had its inaugural launch in March this year, but it failed not long after liftoff. It hit some key milestones, though, making it through Max-Q (the point of maximum dynamic pressure on a spaceship during flight) and stage separation. Now, Relativity Space is turning its attention to its larger vehicle, Terran R, which it plans to have ready for launch in 2026 from Cape Canaveral.
ABL Space, also based in California, conducted its own first flight in 2023 with the launch of its RS1 rocket. Shortly after liftoff, all nine of RS1’s engines shut down, causing the vehicle to crash back down to Earth. In a Substack post at the end of October, CEO Harry O’Hanley detailed some of the work the company has been doing in the months since the first flight to prepare for its second launch, but no date for Flight 2 has been announced just yet.
More to come in 2024
David Ducros/ ESA/ Arianespace
In many ways, 2023 has felt like a primer for what’s to come in 2024, which is shaping up to be a big year for spaceflight based on the timelines of current projects, both private and government-sponsored. SpaceX has already said it’s planning to hit 12 launches a month in 2024, which would bring it to 144 by the end of the year.
This year marked the end of the road for Arianespace’s long-running Ariane 5 rocket, which has become the leading launch vehicle in Europe for heavy missions over its 27 years of service. Ariane 5 had its final flight in July, leaving the continent with few launch options for big missions until the release of its successor, Ariane 6. Like others, though, Ariane 6 has been hit by delay after delay over the years, pushing it way behind its originally targeted 2020 debut. The rocket, which Arianespace is developing for the European Space Agency, is expected to make its first flight in summer 2024.
NASA and Boeing are planning the first crewed flight of the Starliner reusable spacecraft capsule, which after being back for the umpteenth time this year, is now slated to be ready around March 2024. NASA also plans to launch the next phase of its moon mission, Artemis II, as early as November 2024. It will be the second flight for NASA’s Space Launch System (SLS) rocket, and will have four astronauts aboard the Orion capsule for a lunar flyby. But as always, it’d be reasonable to expect some delays.
This article originally appeared on Engadget at https://www.engadget.com/spacex-dominated-private-spaceflight-in-2023-but-its-competitors-mostly-arent-quitting-153050005.html?src=rss
It’s been a busy year for spaceflight — the busiest ever, in fact. This fall, space companies once again broke the record for successful orbital launches in a single year with 2023’s 180th flight. That record was broken when SpaceX sent up Starlink satellites on November 22, according to Ars Technica. The number has since climbed to 200.
That pace has been driven in no small part by Elon Musk’s aerospace venture, which set a goal of hitting 100 launches in 2023 and is nearly there, with 92 as of December 7. Private companies have become key players in the new space race, not only vying to serve as launch providers for science and communications missions but also ushering in the era of space tourism (for anyone rich enough to nab a ticket). But spaceflight is hard, especially if you’re trying to change the game with design innovations, and for all the wins in 2023, there have been plenty of hiccups. Here’s a look at how some of the leading private space companies made out this year.
SpaceX
REUTERS / Reuters
SpaceX seemingly didn’t stop once to catch its breath in 2023. The company managed a record-setting run of orbital launches with its reusable Falcon 9 and partially reusable Falcon Heavy rockets, with the lion’s share dedicated to delivering its Starlink internet satellites to orbit. (There are now more than 5,000 of them circling Earth.) SpaceX also delivered payloads for other entities, including NASA, and carried out multiple crewed flights with its Dragon capsule. Four astronauts arrived at the International Space Station in March aboard a Crew Dragon, and Axiom Space contracted SpaceX for a private astronaut mission that flew to the ISS in May.
As for its experimental Starship flights, things were expectedly a bit more volatile. Starship is the biggest and most powerful launch vehicle built to date, and is designed to support future human spaceflight missions, including NASA’s return to the moon as soon as 2025. The spacecraft itself is 165 feet tall, and when stacked on top of the Super Heavy rocket, the two tower at a combined 397 feet. Both Starship and Super Heavy are planned to be fully reusable. It’s all still in development, and after a few years of suborbital flight tests without Super Heavy — Starship has six of its own Raptor engines that enable flight — the vehicle advanced to orbital tests in 2023.
SpaceX launched Starship for the first time in an integrated flight with its Super Heavy rocket on April 20, and there were problems from the moment liftoff began. Multiple engines failed, and when Starship started its flip maneuver that allows for stage separation about 3 minutes in, it just kept spinning. It was eventually given the command to self-destruct, ending the test with an explosion.
The launch left behind a lot of damage on the ground, too, tearing up the launchpad at SpaceX’s Boca Chica test site, creating a sizable crater and starting a 3.5 acre fire on the grounds of a protected wildlife refuge. But for SpaceX, it was still considered a success — its goal was just to clear the tower. Starship made it to an altitude of about 24 miles before it got caught in that uncontrolled spin. Nevertheless, the Federal Aviation Administration grounded Starship after the destructive test, and ordered the company to complete dozens of corrective actions before it could fly again.
Starship did fly again before the end of 2023, and again Starship exploded. This time, though, Starship officially made it to space, climbing to about 92 miles above Earth. It also performed SpaceX’s first attempt at hot staging — where the upper stage begins to fire its engines while still attached to its lower stage — and was able to complete separation from the Super Heavy booster. It fell well short of the planned 90-minute flight, lasting only around eight minutes, but it demonstrated hot staging was possible.
Blue Origin
Blue Origin
Jeff Bezos’ Blue Origin had a strong run between late 2021 and 2022 with its reusable New Shepard suborbital booster and capsule, completing six crewed flights to the edge of space following years of tests and payload missions for industry clients including NASA. But in September 2022, one of its rockets suffered a main engine failure during an uncrewed research mission, and New Shepard spent a subsequent 15 months grounded.
After investigations into the cause of the event, the company’s then-CEO Bob Smith — who is stepping down in the new year — said in June 2023 that New Shepard would again “be ready to go fly within the next few weeks” pending FAA approval. The FAA closed its investigation at the end of September and gave Blue Origin 21 corrective actions to complete before New Shepard could take to the skies again. Around that time, Ars Technica reported that sources close to the matter said Blue Origin was targeting an October return to flight, but that window came and went with no liftoff or further updates. While it was starting to look like Blue Origin wouldn’t fly at all in 2023, the company finally announced New Shepard’s return in mid-December, and pulled off a successful suborbital payload flight on December 19.
It’s mostly been crickets for Blue Origin’s still-in-development New Glenn, as the company races to get it ready for its debut. New Glenn, a partially reusable heavy lift vehicle, is expected to make its inaugural flight sometime in 2024. It’s already been tapped by NASA to send a pair of small satellites to Mars later that year, but the timeline keeps slipping. It was originally supposed to launch in 2020, but was later rescheduled to 2021, then 2022 and now 2024. The company shared some photos of the rocket’s first and second stage being assembled at its Florida factory over the summer, and confirmed to the Orlando Sentinelthat it was still shooting for next year.
Blue Origin has also been busy building engines for another launch provider, United Launch Alliance, which will be used for ULA’s heavy-lift Vulcan Centaur rocket. Both New Glenn and Vulcan will rely on Blue Origin’s BE-4 engine, and have faced delays tied to its development. Most recently, in July, CNBC reported that one of these engines exploded during testing at Blue Origin’s West Texas facility.
United Launch Alliance
REUTERS / Reuters
ULA had a quiet year as well, carrying out only three launches in 2023 with its Atlas V and Delta IV Heavy rockets — down from eight the year before. Both rockets are in the process of winding down their operations ahead of their official retirement. Delta IV Heavy has just one flight left, which is expected to take place in 2024, and all of Atlas V’s remaining flights have been sold and scheduled out over the next several years. One of ULA’s few 2023 launches was the first flight in its partnership with Amazon, and an Atlas V rocket successfully delivered two of the company’s prototype Project Kuiper internet satellites to orbit.
Most of ULA’s attention right now is focused on putting the final touches on Vulcan ahead of its maiden flight. Vulcan has been in development for roughly a decade, and it, too, has faced years of delays. There was some hope it would finally launch in the first half of 2023, with the company targeting liftoff in May, but after the explosion of a Centaur upper stage during tests, it pushed this target to the end of the year. In October, ULA had said it was planning to launch Vulcan for the first time on Christmas Eve from Cape Canaveral, Florida. But, in an update posted this week, the company confirmed Vulcan wouldn't be flying in 2023 after all.
Following a successful WDR, the launch of ULA's first #VulcanRocket flight test and #Cert1 mission is planned for Jan. 8, 2024, pending range approval. The Vulcan VC2S rocket will launch from SLC-41 from Cape Canaveral Space Force Station, Florida. https://t.co/xFQoT0042Vpic.twitter.com/gkHOBFF6UT
The rocket completed some critical tests in December, and is now scheduled to fly on January 8, 2024. Vulcan’s first flight, dubbed Certification-1, will send Astrobotic’s Peregrine lunar lander to the moon. Once Vulcan is in operation, ULA will start ramping up flights again. It’s already got a contract with Amazon for 38 Project Kuiper launches on Vulcan. It just needs to get off the ground first.
Rocket Lab
Rocket Lab
Over the last few years, Rocket Lab has risen as a company to watch in the launch sector. In the first few months of 2023, it seemed on track to beat its 2022 record of nine orbital launches in one year with its Electron rocket. The company told SpaceFlight Now it was targeting 15 launches this time around. It made it to seven by the end of August, but in September, a problem with the rocket’s upper stage resulted in its failure to reach orbit. Rocket Lab has at least three dozen successful Electron flights under its belt, and only a handful of failures, but the latest is the third such failure in as many years.
Whether or not it proves to be a major setback has yet to be seen. The FAA in October cleared Rocket Lab to resume flights following the finalization of its investigation into the issue, which wrapped up in November. According to Rocket Lab, the problem was caused by “the rare interaction” of “three rare conditions” in the low-pressure space environment that created “an unexpected electrical arc” within the power supply system for the engine’s motor controllers, “shorting the battery packs that provide power to the launch vehicle’s second stage.” The company was still able to return to flight before the end of the year. On December 15, an Electron rocket delivered a Japanese satellite to orbit in a mission dubbed “The Moon God Awakens.”
Rocket Lab has been experimenting with different ways to recover its Electron boosters after flight —including mid-air catch attempts via helicopter — as it works toward rocket reusability. It’s also developing a medium-lift, partially reusable launch vehicle, Neutron, that’s expected to be completed in 2024.
Virgin Galactic & Virgin Orbit
Virgin Orbit
Virgin Galactic, founded by Richard Branson, managed a steady cadence of flights this year with its VSS Unity suborbital spaceplane. The rocket-powered craft made six flights in six months in 2023, including its first ever space tourism trip in August. In addition to research missions, it’s now completed a total of four flights with paying tourists on board, all of them completed between this summer and fall.
The company took a bit of a hit on the stock market in December, though, after Branson said he wouldn’t be putting any more of his own money into it. Speaking to the Financial Times, Branson said, “We don’t have the deepest pockets after COVID, and Virgin Galactic has got $1 billion, or nearly. It should, I believe, have sufficient funds to do its job on its own.” Following his comments, shares took a nosedive. But, they’ve since climbed back up.
Virgin Orbit, on the other hand, didn’t fare so well in 2023. Branson’s Virgin Galactic spinoff announced in May that it was shutting down a month after filing for Chapter 11 bankruptcy. The company was formed in 2017 with the intention of becoming a launch provider for small satellite missions. It had a unique approach to getting payloads to space; Virgin Orbit used a modified Boeing 747 plane to launch its rocket, LauncherOne, from the air.
But it struggled to keep up with the competition, and in January, it suffered a failure during what was the first ever orbital launch from the UK. As a result, the satellites it had been commissioned by the UK and US governments to deliver didn’t make it to orbit. It was the company’s second failure out of a total of just six missions, and it proved unable to rebound.
Newcomers hit hurdles
California-based Relativity Space has been working for years to build the first fully 3D-printed reusable rockets, with plans for an eventual medium-to-heavy-lift vehicle that could send missions to the moon and Mars. Its first rocket, Terran 1, had its inaugural launch in March this year, but it failed not long after liftoff. It hit some key milestones, though, making it through Max-Q (the point of maximum dynamic pressure on a spaceship during flight) and stage separation. Now, Relativity Space is turning its attention to its larger vehicle, Terran R, which it plans to have ready for launch in 2026 from Cape Canaveral.
ABL Space, also based in California, conducted its own first flight in 2023 with the launch of its RS1 rocket. Shortly after liftoff, all nine of RS1’s engines shut down, causing the vehicle to crash back down to Earth. In a Substack post at the end of October, CEO Harry O’Hanley detailed some of the work the company has been doing in the months since the first flight to prepare for its second launch, but no date for Flight 2 has been announced just yet.
More to come in 2024
David Ducros/ ESA/ Arianespace
In many ways, 2023 has felt like a primer for what’s to come in 2024, which is shaping up to be a big year for spaceflight based on the timelines of current projects, both private and government-sponsored. SpaceX has already said it’s planning to hit 12 launches a month in 2024, which would bring it to 144 by the end of the year.
This year marked the end of the road for Arianespace’s long-running Ariane 5 rocket, which has become the leading launch vehicle in Europe for heavy missions over its 27 years of service. Ariane 5 had its final flight in July, leaving the continent with few launch options for big missions until the release of its successor, Ariane 6. Like others, though, Ariane 6 has been hit by delay after delay over the years, pushing it way behind its originally targeted 2020 debut. The rocket, which Arianespace is developing for the European Space Agency, is expected to make its first flight in summer 2024.
NASA and Boeing are planning the first crewed flight of the Starliner reusable spacecraft capsule, which after being back for the umpteenth time this year, is now slated to be ready around March 2024. NASA also plans to launch the next phase of its moon mission, Artemis II, as early as November 2024. It will be the second flight for NASA’s Space Launch System (SLS) rocket, and will have four astronauts aboard the Orion capsule for a lunar flyby. But as always, it’d be reasonable to expect some delays.
This article originally appeared on Engadget at https://www.engadget.com/spacex-dominated-private-spaceflight-in-2023-but-its-competitors-mostly-arent-quitting-153050005.html?src=rss
Wednesday marks the 25th anniversary of the International Space Station’s (ISS) physical assembly in orbit. On December 6, 1998, the crew aboard the space shuttle Endeavor attached the US-built Unity node to the Russian-built Zarya module, kicking off the modular construction of the ISS. A quarter century later, we look back at the milestones and breakthroughs from one of humanity’s most impressive marvels of engineering and international cooperation.
The ISS, which orbits the Earth 16 times every 24 hours at a speed of five miles per second, has been inhabited by researchers for over 23 years. It’s the product of five space agencies from 15 countries. NASA, Roscosmos (Russia’s national space agency), ESA (European Space Agency), JAXA (Japan Aerospace Exploration Agency) and CSA (Canadian Space Agency) have contributed to the station’s assembly and operation.
From ink to orbit
Its official journey began in the early 1990s when the United States’ Freedom (ordered by President Ronald Reagan in 1984) and Russia’s Mir-2 space station projects were in danger of (literally) never getting off the ground. Freedom was in jeopardy primarily due to a lack of Congressional funding amid rising costs, while Mir-2 was on the brink partially because of financial hardships following the collapse of the Soviet Union.
On September 2, 1993, the two nations, each needing an international ally to forge ahead, signed an agreement to combine their programs and collaborate on a joint mission that would have seemed wildly implausible a few years earlier. US Vice President Al Gore and Russian Prime Minister Viktor Chernomyrdin inked the pact, marking the formal conception of the cosmic laboratory we know today as the ISS.
US Vice President Al Gore (left) and Russian Prime Minister Viktor Chernomyrdin in 1993
VITALY ARMAND via Getty Images
The following years included a design overhaul to fold Russian technology into America’s existing Freedom plans, a milestone 1995 docking of NASA’s Atlantis to Russia’s Mir station (epitomizing the fruit of the once-far-fetched collaboration), the addition of funding and cooperation from Europe, Canada and Japan in 1996 and Russia’s launch of Zarya a month before the ISS assembly began. That all led to the day 25 years ago when the two nations’ space tech linked together, sounding the death knell for the Cold War-era space race.
The first crewed mission began on November 2, 2000, when NASA astronaut Bill Shepherd and cosmonauts Yuri Gidzenko and Sergei Krikalev stepped onboard. The inaugural crew spent four months in space, laying the groundwork for subsequent crews. (The record for the most time living and working in space was set by Peggy Whitson, who celebrated 665 days aboard the ISS in 2017.)
NASA
The US Lab Module linked to the station in February 2001, expanding the station’s onboard living space by 41 percent. Four years later, Congress named the US portion a national laboratory. Far more than a symbolic gesture (although it was also that), the designation opened the door to funding and research from a much more comprehensive array of institutions, including universities, other government agencies and private businesses. In 2008, laboratories from Europe and Japan joined the ISS.
The ISS’s construction and expansion from 1998 to 2010 amassed around 900,000 pounds of modules. The station contains about $100 billion worth of gear spinning around the globe.
Research and breakthroughs
NASA
During the ISS’s more than 100,000 orbits of the Earth, it has ushered breakthroughs in areas ranging from disease research to bodily changes from microgravity.
Studying how proteins, cells and biological processes behave in microgravity has boosted research in Alzheimer’s, Parkinson’s, heart disease and asthma. Many of these studies wouldn’t have been possible on Earth. Meanwhile, protein crystal growth experiments have sparked advances in developing treatments for conditions including cancer, gum disease and Duchenne Muscular Dystrophy.
ISS researchers made surprising discoveries about “cool flames,” which can burn at extremely low temperatures. Nearly impossible to study outside of microgravity, the astronauts’ research has challenged our previous understanding of combustion. It may open new frontiers with internal combustion engines (ICE), allowing them to run cleaner and more efficiently.
Studies aboard the space station have contributed significantly to our knowledge of human muscle atrophy and bone loss. (ISS astronauts typically work out at least two hours daily to prevent these conditions.) Studying how prolonged time in microgravity affects muscle deterioration and recovery also applies to Earthbound patients stuck in bed for extended periods. In addition, the research can help us learn more about conditions like osteoporosis, leading to improved preventative measures and treatments. It has also helped scientists better understand broader biological changes in microgravity, which could pay dividends if or when humans colonize Mars.
Water purification systems designed to sustain astronauts over long periods have also borne fruit on Earth. ISS astronauts recycle 98 percent of their pee and sweat using highly efficient and compact systems. This has led to the technology’s use in agriculture, disaster relief and aid provision for less developed areas.
ISS astronauts studied the Bose-Einstein Condensate (BEC), a “fifth state of matter” that deviates significantly from known states like solids, liquids, gases and plasmas. In 2018, the ISS’s Cold Atom Lab produced BEC in orbit for the first time. Space’s colder temperatures and lack of gravity allow for longer observation times, helping researchers learn more about the behaviors of atoms and BECs. Not only is this crucial to quantum physics studies, it could aid in developing more advanced quantum technologies down the road.
The ISS is currently scheduled for decommissioning in January 2031. (Russia currently plans to leave in 2028.) Its late 90s infrastructure is aging quickly, and the space station would grow increasingly and prohibitively expensive to maintain over the long haul. Government and commercial orbital labs will likely pick up the slack in the following years.
When its time comes, the ISS will undergo a controlled deorbit. As for what that might involve, Kirk Shireman, deputy manager of NASA’s space station program, broached the subject with Space.com in 2011. “We’ve done a lot of studies,” he said. “We have found an orbit and a change in velocity that we believe is achievable, and it creates a debris footprint that’s all in water in an unpopulated area.”
Beginning about a year before the planned decommissioning date, NASA will allow the ISS to begin degrading from its normal 240-mile high orbit and send up an uncrewed space vehicle (USV) to dock with the station and help propel it back Earthward. The ultimate crew from the ISS will evacuate just before the station hits an altitude of 115 miles, at which point the attached USV will fire its rockets in a series of deorbital burns to set the station into a capture trajectory over the Pacific Ocean.
NASA plans to guide any remaining bits into a remote area of the South Pacific Ocean. “We’ve been working on plans and update the plans periodically,” Shireman said. “We don’t want to ever be in a position where we couldn’t safely deorbit the station. It’s been a part of the program from the very beginning.”
NASA 25th-anniversary event
NASA held a live-streamed event on Wednesday to mark the quarter-century anniversary of the Zarya and Unity modules linking up. All seven STS-88 Space Shuttle Mission crew members joined NASA Associate Administrator Bob Cabana (mission commander) and ISS Program Manager Joel Montalbano to discuss the milestone.
You can watch it here:
This article originally appeared on Engadget at https://www.engadget.com/looking-back-at-25-years-of-the-iss-173155049.html?src=rss