- Boeing’s execs refuse to relocate, instead taking private jets to work: report New York Post
- Boeing CEO commutes by private jet while staff return to office Business Insider
- Private Jets and Pop-Up Workspaces: Boeing Eases Return to Office for Top Brass The Wall Street Journal
- Boeing’s CEO is commuting to the office by private jet, and some employees who have returned to the office are mocking him, report says Yahoo! Voices
- Boeing’s CEO is commuting to the office by private jet, and some employees who have returned to the office are Business Insider India
- View Full Coverage on Google News
Tag Archives: Boeings
Boeing’s role in building NASA’s new rocket
Sign up for CNN’s Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more.
New York
CNN Business
—
In the fervor-filled days leading up to the November 16 launch of the long-awaited Artemis I mission, an uncrewed trip around the moon, some industry insiders admitted to having conflicting emotions about the event.
On one hand, there was the thrill of watching NASA take its first steps toward eventually getting humans back to the lunar surface; on the other, a shadow cast by the long and costly process it took to get there.
“I have mixed feelings, though I hope that we have a successful mission,” former NASA astronaut Leroy Chiao said in an opinion roundtable interview with The New York Times. “It is always exciting to see a new vehicle fly. For perspective, we went from creating NASA to landing humans on the moon in just under 11 years. This program has, in one version or another, been ongoing since 2004.”
There have been numerous delays with the development of the rocket at the center of the Artemis I mission: NASA’s Space Launch System (SLS), the most powerful rocket ever flown — and one of the most controversial. The towering launch vehicle was originally expected to take flight in 2016. And the decade-plus that the rocket was in development sparked years of blistering criticism targeted toward the space agency and Boeing, which holds the primary contract for the SLS rocket’s core.
NASA’s Office of Inspector General (OIG) repeatedly called out what it referred to as Boeing’s “poor performance,” as a contributing factor in the billions of dollars in cost overruns and schedule delays that plagued SLS.
“Cost increases and schedule delays of Core Stage development can be traced largely to management, technical, and infrastructure issues driven by Boeing’s poor performance,” one 2018 report from NASA’s OIG, the first in a series of audits the OIG completed surrounding NASA’s management of the SLS program, read. And a report in 2020 laid out similar grievances.
For its part, Boeing has pushed back on the criticism, pointing to rigorous testing requirements and the overall success of the program. The OIG report also included correspondence from NASA, which noted in 2018 that it “had already recognized the opportunity to improve contract performance management” and agreed with the report’s recommendations.
In various op-eds, the rocket has also been deemed “the result of unfortunate compromises and unholy politics,” a “colossal waste of money” and an “irredeemable mistake.”
Despite all the heated debate that has followed SLS, by all accounts, the rocket is here to stay. And officials at NASA and Boeing said its first launch two months ago was practically flawless.
“I worked over 50 Space Shuttle launches,” Boeing SLS program manager John Shannon told CNN by phone. “And I don’t ever remember a launch that was as clean as that one was, which for a first-time rocket — especially one that had been through as much as this one through all the testing — really put an exclamation point on how reliable and robust this vehicle really is.”
The Artemis program manager at NASA, Mike Sarafin, also said during a post-launch news conference that the rocket “performed spot-on.”
But with its complicated history and its hefty price tag, SLS could still face detractors in the years to come.
Many have questioned why SLS needs to exist at all. With the estimated cost per launch standing at more than $4 billion for the first four Artemis missions, it’s possible commercial rockets, like the massive Mars rocket SpaceX is building, could get the job done more efficiently, as the chief of space policy at the nonprofit exploration advocacy group Planetary Society, Casey Dreier, recently observed in an article laying out both sides of the SLS argument.
(NASA Administrator Bill Nelson noted that the $4 billion per-launch cost estimate includes development costs that the space agency hopes will be amortized over the course of 10 or more missions.)
Boeing was selected in 2012 to build SLS’s “core stage,” which is the hulking orange fuselage that houses most of the massive engines that give the rocket its first burst of power at liftoff.
Though more than 1,000 companies were involved with designing and building SLS, Boeing’s work involved the largest and most expensive portion of the rocket.
That process began over a decade ago, and when the Artemis program was established in 2019, it gave the rocket its purpose: return humans to the moon, establish a permanent lunar outpost, and, eventually, pave the path toward getting humans to Mars.
But the SLS is no longer the only rocket involved in the program. NASA gave SpaceX a significant role in 2021, giving the company a fixed-price contract for use of its Mars rocket as the vehicle that will ferry astronauts to the lunar surface after they leave Earth and travel to the moon’s orbit on SLS. SpaceX’s forthcoming rocket, called Starship, is also intended to be capable of completing a crewed mission to the moon or Mars on its own. (Starship, it should be noted, is still in the development phases and has not yet been tested in orbit.)
Boeing has repeatedly argued that SLS is essential and capable of performing tasks that other rockets cannot.
“The bottom line is there’s nothing else like the SLS because it was built from the ground up to be human rated,” Shannon said. “It is the only vehicle that can take the Orion spacecraft and the service module to the moon. And that’s the purpose-built design — to take large hardware and humans to cislunar space, and nothing else exists that can do that.”
Starship, meanwhile, is not tailored solely to NASA’s specific lunar goals. SpaceX CEO Elon Musk has talked for more than a decade about his desire to get humans to Mars. More recently, he has said Starship could also be used to house giant space telescopes.
Yet, another reason critics remain skeptical of SLS is because of its origins. The rocket’s conception can be traced back to NASA’s Constellation program, which was a plan to return to the moon mapped out under former President George W. Bush that was later canceled.
But the SLS has survived. Many observers have suggested a big reason was the desire to maintain space industry jobs in certain Congressional districts and to beef up aerospace supply chains.
Much of the criticism levied against SLS, however, has focused on the actual process of getting the rocket built.
At one point in 2019, former NASA administrator Jim Bridenstine considered sidelining the SLS rocket entirely, citing frustrations with the delays.
“At the end of the day, the contractors had an obligation to deliver what NASA had contracted for them to deliver,” Bridenstine told CNN by phone last month. “And I was frustrated like most of America.”
Still, Bridenstine said, when his office reviewed the matter, it found “there were no options that were going to cost less money or take less time than just finishing the SLS” — and the rocket was never ultimately sidelined. (Bridenstine noted he was also publicly critical of delayed projects led by SpaceX and others.)
NASA continued to stand by Boeing and the SLS rocket even as it became a political hot potato, with some in Congress both criticizing its costs and refusing to abandon the program.
The SLS rocket ended up flying its first launch more than six years later than originally intended. NASA had allocated $6.2 billion to the SLS program as of 2018, but that price tag more than tripled to $23 billion as of 2022, according to an analysis by the Planetary Society.
Those escalating costs can be traced back to the type of contracts that NASA signed with Boeing and its other major suppliers for SLS. It’s called cost-plus, which puts the financial burden on NASA when projects face cost overruns while still offering contractors extra payments, or award fees.
In testimony before the Senate Appropriations Subcommittee on Science last year, current NASA Administrator Bill Nelson criticized the cost-plus contracting method, calling it a “plague.”
More in vogue are “fixed-price” contracts, which have a firm price cap, like the kind NASA gave to Boeing and SpaceX for its Commercial Crew Program.
In an interview with CNN in December, however, Nelson stood by cost-plus contracting for SLS and Orion, the vehicle that is designed to carry astronauts and rides atop the rocket to space. He said that without that type of contract, in his view, NASA’s private-sector contractors simply wouldn’t be willing to take on a rocket designed for such a specific purpose and exploring deep space. Building a rocket as specific and technically complex as SLS isn’t a risk many private-sector companies are anxious to take on, he noted.
“You really have difficulty in the development of a new and very exquisite spacecraft … on a fixed-price contract,” he said.
“That industry is just not willing to accept that kind of thing, with the exception of the landers,” he added, referring to two other branches of the Artemis program: robotic landers that will deliver cargo to the moon’s surface and SpaceX’s $2.9 billion lunar lander contract. Both of those will use fixed-price — often referred to as “commercial” — contracts.
“And even there, they’re getting a considerable investment by the federal government,” Nelson said.
Still, government watchdogs have not pulled punches when assessing these cost-plus contracts and Boeing’s role.
“We did notice very poor contractor performance on Boeing’s part. There’s poor planning and poor execution,” NASA Inspector General Paul Martin said during testimony before the House’s Subcommittee on Space and Aeronautics last year. “We saw that the cost-plus contracts that NASA had been using…worked to the contractor’s — rather than NASA’s — advantage.”
Shannon, the Boeing executive, acknowledged in an interview that Boeing and SLS have faced loud detractors, but he said that the value of the drawn out development and testing program would become evident as SLS flies.
“I am extremely proud that NASA — even though there were significant schedule pressures — they could set up a test program that was incredibly comprehensive,” he said. “The Boeing team worked through that test process and hit every mark on it. And you see the results. You see a vehicle that is not just visually spectacular, but its performance was spectacular. And it really put us on the road to be able to do lunar exploration again, which is something that’s very important in this country.”
But the rocket is still facing criticism. During a Congressional hearing with the House’s Science, Space, and Technology Committee in March 2022, NASA’s Inspector General said that current cost estimates for SLS were “unsustainable,” gauging that the space agency will have spent $93 billion on the Artemis program from 2012 through September 2025.
Martin, the NASA inspector general, specifically pointed to Boeing as one of the contractors that would need to find “efficiencies” to bring down those costs as the Artemis program moves forward.
In a December 7 statement to CNN, Boeing once again defended SLS and its price point.
“Boeing is and has been committed to improving our processes — both while the program was in its developmental stage and now as it transitions to an operational phase,” the statement read, noting the company already implemented “lessons learned” from building the first rocket to “drive efficiencies from a cost and schedule perspective” for future SLS rockets.
“When adjusted for inflation, NASA has developed SLS for a quarter of the cost of the Saturn V and half the cost of the Space Shuttle,” the statement noted. “These programs have also been essential to investing in the NASA centers, workforce and test facilities that are used by a broad range of civil and commercial partners across NASA and industry.”
The successful launch of SLS was a welcome winning moment for Boeing. Over the past few years, the company has been mired in controversy, including ongoing delays and myriad issues with Starliner, a spacecraft built for NASA’s Commercial Crew Program, and scandal after scandal plaguing its airplane division.
Now that the Artemis I mission has returned safely home, NASA and Boeing can turn to preparing more of the gargantuan SLS rockets to launch even loftier missions.
SLS is slated to launch the Artemis II mission, which will take four astronauts on a journey around the moon, in 2024. From there, SLS will be the backbone of the Artemis III mission that will return humans to the lunar surface for the first time in five decades and a series of increasingly complex missions as NASA works to create its permanent lunar outpost.
Shannon, the Boeing SLS program manager, told CNN that construction of the next two SLS rocket cores is well underway, with the booster for Artemis II on track to be finished in April — more than a year before the mission is scheduled to take off. All of the “major components” for a third SLS rocket are also completed, Shannon added.
For the third SLS core and beyond, Boeing is also moving final assembly to new facilities Florida, freeing up space at its manufacturing facilities to increase production, which may help drive down costs.
Shannon declined to share a specific price point for the new rockets or share any internal pricing goals, though NASA is expected to sign new contracts for the rockets that will launch the Artemis V mission and beyond, which could significantly change the price per launch.
Nelson also told CNN in December that NASA “will be making improvements, and we will find cost savings where we can,” such as with the decision to use commercial contracts for other vehicles under the Artemis program umbrella.
How and whether those contracts bear out remain to be seen: SpaceX needs to get its Starship rocket flying, a massive space station called Gateway needs to come to fruition, and at least some of the robotic lunar landers designed to carry cargo to the moon will need to prove their effectiveness. It’s also not yet clear whether those contracts will result in enough cost savings for the critics of SLS, including NASA’s OIG, to consider the Artemis program sustainable.
As for SLS, Nelson also told reporters December 11, just after the conclusion of the Artemis I mission, that he had every reason to expect that lawmakers would continue to fund the rocket and NASA’s broader moon program.
“I’m not worried about the support from the Congress,” Nelson said.
And Bridenstine, Nelson’s predecessor who has been publicly critical SLS, said that he ultimately stands by SLS and points out that, controversies aside, it does have rare bipartisan support from its bankrollers.
“We are in a spot now where this is going to be successful,” Bridenstine said last month, recalling when he first realized the Artemis program had support from the right and left. “All of America is going to be proud of this program. And yes, there are going to be differences. People are gonna say well, you should go all commercial and drop SLS…but at the end of the day, what we have to do is we have to bring together all of the things that are the best programs that we can get for America and use them to go to the moon.”
What caused the demise of Boeing’s 747 airliner?
The death of a queen is a time for reflection. So it was when the last 747 jumbo jet—the “Queen of the Skies” to legions of fans—rolled off Boeing’s production line in Washington state on December 6th. Her demise has been slow and a little undignified. The last plane to be sold as passenger transport was in 2017, to Korean Air Lines. After that she was used only for cargo, and not many operators wanted her for that. Only 30 747s were ordered over the past five years. Even so, for those who associate the bumpy-headed bird with aviation’s heyday, it feels like the end of an era.
PanAm flew the first commercial 747 route in 1970, between JFK airport in New York and London Heathrow. Strict regulation of the industry at the time restricted which routes airlines could fly. Ticket prices were also controlled. Those first jumbos typically carried 366 passengers, compared with around 200 on the Boeing 707s that flew the transatlantic route in the 1960s. That gave carriers a better chance of turning a profit in the face of these constraints. But their size would also prove to be a burden. When the oil shock struck in the mid-1970s, the gas-guzzling, four-engined beasts were a factor in airlines’ crippling losses—not least because the recession meant it was more difficult to fillots seats.
In 1978 America deregulated its aviation market, the world’s biggest. That prompted airlines to develop the “hub-and-spoke” business model. With fewer limitations on which routes they could operate, carriers could fly huge aircraft to their home airports, before decanting passengers onto smaller planes that took them to their final destination; this changed both domestic and international air travel. That allowed operators to serve more airports with fewer planes. The more customers that could be squeezed onto the hub-bound flights, the better. That was a boon for what was then the world’s largest passenger plane. To secure its place in this system, in 1988 Boeing launched the 747-400, which could fly up to 8,354 miles (13,450 km) non-stop, around 650 miles more than its predecessor, the 747-300. It typically carried 416 passengers.
During the 2000s competition squeezed Boeing’s jumbo. In 2007 Airbus, the American firm’s great European rival, launched the A380. This double-decker giant remains the largest passenger plane ever made, with up to 615 seats. For carriers whose prime interest was funnelling huge numbers of people through their hubs, it became the aircraft of choice. A new breed of “super-connector” airlines, such as Emirates and Qatar, built their business models around them. Emirates operates 118 A380s and no 747s. More recently, carriers have been lured by new ultra-long-range, super-efficient planes such as Airbus’s A350 and Boeing’s own 777. These carry almost as many passengers, but have just two engines, making it economically viable to fly more point-to-point long-distance routes. The jumbo could not survive this competitive pincer. An ailing Queen of the Skies was already on her deathbed when the pandemic killed her off.
Yet the future of big passenger planes has begun to look a little brighter than it did before covid-19 struck, even if the 747 will no longer be among their number. (Nor might the A380 be for long, because of those new long-range planes.) Air traffic has rebounded from the effects of the pandemic. But analysts think that, in the Zoom age, leisure passengers will return to the skies more readily than business folk. Those on the company dime are more likely to pay a premium to board a flight at a convenient time, which means carriers must offer them more frequent flights on smaller planes. But holidaymakers are more concerned about price than about a civilised departure time. They are also more likely to book far in advance. This makes their custom less lucrative, but means they can be stuffed onto larger jets. The queen may be dead, but the monarchy is alive and well.■
The very last 747 jumbo jet is about to roll off Boeing’s assembly line
New York
CNN Business
—
After 53 years and more than 1,570 planes, the last Boeing 747 is set to roll off the assembly line in Washington state Tuesday, on its way to serve as a cargo plane.
The once-groundbreaking jumbo jet, with the distinctive second-floor bulge, is perhaps the most notable and popular plane Boeing has ever built. It was even big enough to be used to ferry the Space Shuttle from landing strips in California to its launch site in Florida. And it is set to launch a new type of spacecraft by Virgin Orbit as soon as next week, after carrying it aloft under its wing.
The 747 was once the choice of the rich and glamorous, and even royalty. Many movies, including the 1973 James Bond classic “Live and Let Die” featured the plane, or sets made to look like the first class lounge on its upper level. The 747 still serves as Air Force One, and two already-assembled planes are undergoing work right now to be transformed into the next generation of the presidential jet. Those planes won’t be delivered for at least four years due to delays.
Other than that use, the 747’s days as a passenger plane are now almost completely behind it. Airlines have moved away from planes with four fuel-guzzling engines like the 747. Rival Airbus
(EADSF) dropped its own two-level jumbo jet, the A380, in 2019.
Boeing had signaled in 2020 that it would stop building the 747, even in its freighter form, as customers bought either the more fuel-efficient 777 freighter or saved money by reconditioning former 747 passenger jets as freighters. It has not yet announced plans for the factory in Everett, Washington, where it has been building the 747, but it does expect to keep it open.
Boeing hasn’t built a passenger version of the plane since it delivered the last one to Korean Airlines in 2017. This last 747 will go to Atlas Air Worldwide Holdings
(AAWW), which will operate the plane for Swiss logistics company Kuehne+Nagel. Tuesday’s final plane will be flown to another Boeing facility shop for painting and other final details, before being delivered to Atlas early next year.
Today there are only 44 passenger versions of the 747 still in service, according to aviation analytics firm Cirium. More than half of those — 25 — are flown by Lufthansa.
That total is down from more than 130 in service as passenger jets at the end of 2019, just before the pandemic crippled demand for air travel, especially on international routes on which the 747 and other widebody jets were primarily used. Most of those passenger versions of the jets were grounded during the early months of the pandemic and never returned to service.
But there are still 314 747 freighters in use, according to Cirium, many of which were initially used as passenger jets before being renovated into freighters.
“The 747-8 is an incredibly capable aircraft, with capacity that is unmatched by any other freighter in production,” said UPS in 2020, when Boeing signaled it would soon stop building the jet. “With a maximum payload of 307,000 lbs., we use them on long, high-volume routes, connecting Asia, North America, Europe and the Middle East.”
Boeing delivered the first 747 passenger jets in December 1969 to two airlines that no longer exist — TWA and Pan Am. Delta Air Lines
(DAL) was the last US airline to fly a passenger version of the plane, also in 2017. That was the last year the final US 747 passenger flights — by both Delta and United
(UAL) — drew large crowds of the plane’s fans, a testament to its enduring popularity.
– CNN’s Jackie Wattles contributed to this report
Boeing’s Starliner launch pushed back until April • The Register
The first crewed launch of Boeing’s Starliner has been delayed again, this time being pushed back to April 2023 from an earlier planned launch date of February.
The change came with little announcement from NASA, which tweeted out the new date as a scheduling update without any additional details. In an accompanying blog post, NASA said the change was being made to eliminate conflicts between “visiting spacecraft traffic at the space station,” but the agency didn’t elaborate much beyond that.
Starliner has been a drag on Boeing since the company unveiled the capsule in 2010. According to Boeing’s Q3 2022 filing, Starliner has lost the company $883 million since 2019.
That was the year Starliner made its first attempt at an uncrewed launch and docking with the International Space Station, which failed due to a pair of software errors that left it unable to dock and saw it returned to Earth early under less-than-ideal circumstances.
Attempts at a second launch in 2021 also failed when 13 of the Calamity Capsule’s propulsion system valves failed pre-flight checks. Starliner only made it to the ISS for the first time this past May, but even that launch wasn’t without issues as two of the craft’s 12 thrusters failed once in orbit.
NASA still has Starliner concerns
NASA’s Aerospace Safety Advisory Panel (ASAP) met on October 27 to discuss, among other things [PDF], updates on the Commercial Crew Program. ASAP panel member Mark Sirangelo said that issues remaining after the uncrewed launch in May could continue to have an effect – like delaying Starliner’s crewed launch, a decision made by NASA after the October 27 meeting, though it isn’t clear if ASAP’s discussion influenced its choice.
According to Sirangelo, the uncrewed launch in May “produced a number of in-flight anomalies that will need to be worked prior to the next flight test.”
Sirangelo also said that the new Starliner software would need to undergo additional avionics software integration lab testing prior to the launch.
If and when Starliner carries crew to the ISS, it’ll be flown by Barry “Butch” Wilmore and Sunita “Suni” Williams, who will stay on the ISS for around two weeks. Once the test flight is complete, Boeing will have a few other certification steps to take before it can elbow its way into the commercial launch rotation among SpaceX’s regular runs to the orbital lab.
NASA said that SpaceX’s Dragon Endeavour will mark its fourth flight to the ISS when it launches in February on its Crew-6 mission, the month Starliner was originally scheduled for its first crewed flight. That launch will make Dragon Endeavour “the spacecraft fleet leader in number of flights to and from the station,” NASA said.
Crew-7, meanwhile, is being planned for some time in the fall of 2023. Whether Starliner will get a chance to deliver humans to the ISS between those flights remains to be seen, but those willing to place a bet might want to wait until April to see if the Calamity Capsule can finally shed that pejorative. ®
Boeing’s first manned spaceflight to International Space Station delayed to next year
NASA’s SpaceX Crew-4 members speak after successfully docking with ISS.
Boeing’s first manned spaceflight with NASA astronauts to the International Space Station was delayed on Thursday to next year, the aerospace company announced on Thursday.
The Starliner spacecraft is now scheduled to carry astronauts Barry “Butch” Wilmore and Suni Williams to the ISS in February as Boeing works out problems with thrusters and a cooling loop anomaly that arose during an unmanned test flight in May.
A United Launch Alliance Atlas V rocket with Boeing’s CST-100 Starliner spacecraft launches from Space Launch Complex 41. (Joel Kowsky/NASA via AP / AP Newsroom)
Boeing’s first test flight for Starliner launched in 2019, but software errors sent the spacecraft into the wrong orbit, and it was brought back to Earth early. The May launch was the spacecraft’s second test flight.
Stocks in this Article
JEFF BEZOS’ BLUE ORIGIN EXPRESSES INTEREST IN NASA’S SECOND ARTEMIS LUNAR LANDER CONTRACT
Elon Musk’s SpaceX has already launched five crewed flights for NASA to the International Space Station. The company also carried tourists to space for the first time ever last September.
The Boeing CST-100 Starliner spacecraft is seen at Cape Canaveral Space Force Station in Florida ahead of its second Orbital Flight Test (OFT-2) to the International Space Station for NASA’s Commercial Crew Program. (NASA/Frank Michaux / Fox News)
Boeing originally planned to launch the first crewed flight by the end of this year but is now hoping to launch from Cape Canaveral Space Force Station in Florida next February.
CLICK HERE TO READ MORE FROM FOX BUSINESS
If that mission is successful, then NASA will start contracting with Boeing to regularly ferry astronauts back and forth from space.
The Associated Press contributed to this report.
Yes, Boeing’s Starliner spacecraft really could fly astronauts this year
Enlarge / Boeing’s Orbital Flight Test-2 mission launches on May 19, 2022.
Trevor Mahlmann
Five weeks have passed since Boeing’s Starliner spacecraft returned from a largely successful test flight to the International Space Station, and the company continues to review data from the mission alongside engineers from NASA.
So far, there have been no showstoppers. In fact, sources say, the relatively clean performance of Starliner has increased the possibility that the vehicle could make its first crewed flight this year in December.
This mission, called the Crew Flight Test, will likely carry two astronauts to the space station. If successful, it would clear the way for long-duration, operational missions to the space station in 2023 and give NASA a much-coveted second means of getting astronauts into space.
Two weeks ago, NASA publicly announced that veteran astronauts Butch Wilmore and Suni Williams would serve as the prime crew for this test flight. NASA also said a short-duration mission with two astronaut test pilots is sufficient to meet all of the test objectives for the flight test. However, the agency added, this mission could be extended or shortened based on the staffing needs of the station. For example, NASA said it might even add an astronaut and extend the mission if the need arose.
Based on NASA’s internal schedules, however, it appears the agency may opt for a shorter six-day trip. On a revised schedule this week, the Starliner test flight showed a December 8 launch date, with a subsequent docking at the space station from December 9 to December 14.
This date is far from written in stone. It is subject to adjustment for a variety of reasons, including the ongoing review of data from Starliner’s first test flight in May, as well as docking port availability on the space station. However, that such a date is now appearing on the schedule indicates a reasonable possibility that Starliner will make a second flight this year.
A NASA spokesman, Josh Finch, said the agency was not ready to formally set a launch date for Boeing’s Crew Flight Test.
“Boeing is working to be hardware ready in support of the company’s crewed flight test this year,” Finch said. “The Starliner team is in the process of delivering the initial uncrewed flight test data to NASA and jointly determining forward work ahead of crewed flight. Engineering and program reviews are continuing, culminating in a launch schedule assessment toward the end of July based on spacecraft readiness, space station scheduling needs, and Eastern Range availability.”
Following this assessment, Finch said, NASA plans to provide a status update, which will likely include a launch target.
One of the major factors is docking port availability. There are two ports on the space station fitted with an “international docking adapter,” and they must be shared by SpaceX’s Crew Dragon, Cargo Dragon 2, and Starliner. This summer and fall, NASA presently has three SpaceX missions flights that will use those ports: the CRS-25 and -26 cargo missions and the Crew-5 launch. At present, however, there is a docking port available from December 1 to January 14. After this, SpaceX’s CRS-27 cargo mission would need the spare port.
Assuming no more major slippage in the launch of the SpaceX vehicles, and assuming that Starliner gets a clean bill of health from its data review, this window is probably when Boeing and NASA will go for Starliner’s next flight.
Boeing’s Starliner returns from space station
Check out what’s clicking on FoxBusiness.com.
NASA and Boeing landed the CST-100 Starliner in New Mexico on Wednesday.
The landing marked the completion of the spacecraft’s unmanned Orbital Flight Test-2 (OFT-2) to the International Space Station (ISS).
The capsule parachuted down to Earth about four hours after departing the orbiting laboratory.
NASA said the Boeing Starliner mission was a “critical step in validating the performance of Boeing’s systems” and that OFT-2 “brings the nation a significant step closer to having two unique human transportation systems to carry astronauts to and from the space station from U.S. soil.”
JAPANESE ASTRONAUT WELCOME ON NASA LUNAR GATEWAY, BIDEN SAYS
Elon Musk’s SpaceX is already the established leader, launching astronauts — and tourists — into space since 2020.
“NASA’s Commercial Crew Program and our industry partner, Boeing, today took a major and successful step on the journey to enabling more human spaceflight missions to the International Space Station on American spacecraft from American soil,” NASA Administrator Bill Nelson said in a statement.
GET FOX BUSINESS ON THE GO BY CLICKING HERE
“The OFT-2 mission represents the power of collaboration, which allows us to innovate for the benefit of humanity and inspire the world through discovery. This golden era of spaceflight wouldn’t be possible without the thousands of individuals who persevered and poured their passion into this great achievement,” he added.
“I am incredibly proud of the dedication and perseverance shown by the NASA, Boeing and ULA team culminating in the successful completion of Starliner’s second Orbital Flight Test from start to finish,” Steve Stich, the manager of NASA’s Commercial Crew Program, said in a statement. “Throughout this process, Starliner has provided a tremendous amount of valuable data, which we’re continuing to assess in our effort to bring the spacecraft online and fully operational for crew flights to the space station as soon as it is safe to do so.”
Former NASA Astronaut Clayton Anderson discusses the evolution of space exploration, the SpaceX launch, China’s space efforts and NASA delaying its human lunar landing goal.
The flight test began on May 19. Starliner launched on the ULA Atlas V rocket from Florida’s Cape Canaveral Space Force Station. It docked to the ISS on Friday, after which astronauts there tested Starliner’s communication and computer systems and uploaded supplies.
Boeing scrapped its first attempt to reach the space station in 2019 after software errors. The problem was fixed last summer, but corroded valves stymied a second attempt.
CLICK HERE TO READ MORE ON FOX BUSINESS
After NASA and Boeing review data from this test flight, teams will continue plans for Starliner and its next mission, the Crew Flight Test to the space station.
The Associated Press contributed to this report.
Boeing’s Starliner Has Landed, but Questions Remain After Imperfect Mission
Boeing’s Starliner successfully touched down yesterday on the sandy surface of the New Mexico desert, marking the completion of the first uncrewed end-to-end test of the spacecraft. It was a picture-perfect landing, but the six-day mission was not without problems.
The CST-100 Starliner spacecraft landed on Wednesday at 4:49 p.m. local time (6:49 p.m. EDT) at at White Sands Missile Range’s Space Harbor after spending six days in low Earth orbit. The spacecraft departed from the space station with more than 600 pounds (270 kilograms) of cargo, including three spent nitrogen oxygen reusable tanks that provided breathable air to ISS crew members.
Four hours after undocking from the orbital outpost, Starliner deployed three parachutes and six airbags to help bring it to a smooth touchdown. A team will now transport the vehicle back to the company’s facility at NASA’s Kennedy Space Center in Florida for processing.
The test flight is part of Boeing’s $4.3 billion contract with NASA’s Commercial Crew Program to provide rides for its astronauts to and from the ISS. But Boeing had fallen behind on delivering a viable spacecraft after two previous failed test attempts, one in 2019 and one last year. Meanwhile, its commercial counterpart SpaceX (which was awarded a $2.6 billion contract from NASA) has been dropping off astronauts at the ISS for the past two years now.
The completion of this end-to-end test flight, called Orbital Flight Test-2 (OFT-2), has been a long time coming, but it’s already clear that there were several problems during the mission.
The Starliner CST-100 spacecraft launched on May 19 from Cape Canaveral Space Force Station in Florida. About 30 minutes after liftoff, one of 12 thrusters responsible for orbital maneuvering malfunctioned, followed by a failure of a backup thruster, as Steve Sitch, manager of NASA’s Commercial Crew Program, explained at a post-launch press conference. An issue with equipment that keeps Starliner cool also emerged shortly into the mission.
G/O Media may get a commission
Save $70
Apple AirPods Max
Experience Next-Level Sound
Spatial audio with dynamic head tracking provides theater-like sound that surrounds you
When it came time to rendezvous with the ISS, a ring responsible for latching onto the station failed to deploy in the correct manner, causing Starliner to miss its scheduled contact time by over an hour, according to AFP. And shortly after touchdown, the recovery team detected hydrazine vapor—a flammable oily liquid that’s dangerous to inhale—around the spacecraft. This lingering chemical, which forced the recovery team to temporarily back off, may have been a result of Starliner not burning through all of its propellant, Stich said during a post-touchdown briefing. No leaks were detected, he added.
Despite these issues, the team behind the mission still seemed optimistic. “We have a few things to work on…but I don’t really see any showstoppers,” Stich told reporters at the briefing. NASA and Boeing will now carefully analyze and scrutinize the mission data, which will inform the next steps. Assuming the problems experienced during OFT-2 are as minor as Stich is making them out to be, a crewed test flight of Starliner could happen later this year.
During its brief time in low Earth orbit, the Starliner was attended to by ISS crew members, who gave a video tour of the spacecraft while it was docked. The crew even got to meet Rosie the Rocketeer, a test manikin that’s equipped with 15 sensors to relay what astronauts on board the spacecraft would have experienced during the journey. Although Rosie didn’t have much to say, NASA astronaut Robert Hines pointed at the manikin in the commander’s seat, saying “she’s got a great view out her window over there.”
Hopefully, Boeing will resolve Starliner’s issues before the spacecraft transports actual astronauts, and not just Rosie.
Boeing’s Starliner safely returns to Earth after second test flight
Boeing’s Starliner has returned to Earth safely after docking with the International Space Station for the first time. The six-day Boeing Orbital Flight Test-2 mission came to an end when the spacecraft landed at the US Army’s White Sands Missile Range in New Mexico. It’s the first American capsule to touch down on land instead of in the ocean. Starliner undocked from the ISS at 2:36PM ET and by 6:05PM, it was firing its thrusters to drop out of orbit.
The uncrewed Starliner, which took over 800 pounds of equipment to the ISS (including a Kerbal Space Program plush toy), brought back over 600 pounds of cargo. Among the returned items were reusable Nitrogen Oxygen Recharge System tanks, which are used to provide air to those on the ISS. They’ll be refilled and taken back to the space station later.
The spacecraft’s first test flight took place in 2019. While it reached orbit, an automation system issue prevented thrusters from firing, meaning Starliner was unable to dock with the ISS. An attempt at a second test flight last year was scrapped because of a propulsion system valve problem, which led to a nine-month delay. In the interim, SpaceX conducted more crewed trips to the ISS than previously planned.
After assessing the data from this flight, Boeing will be able to start planning crewed flights that will take astronauts to the space station and bring them back to Earth. The New York Times says NASA will announce the astronauts who’ll be flying on Starliner this summer, and the mission could take place before the year ends.
Mark Nappi, vice president and program manager, Boeing Commercial Crew Program, said:
“We have had an excellent flight test of a complex system that we expected to learn from along the way and we have With the completion of OFT-2, we will incorporate lessons learned and continue working to prepare for the crewed flight test and NASA certification. Thank you to the NASA and Boeing teammates who have put so much of themselves into Starliner.”
Mariella Moon contributed to this story.
All products recommended by Engadget are selected by our editorial team, independent of our parent company. Some of our stories include affiliate links. If you buy something through one of these links, we may earn an affiliate commission.