Or to borrow the famous quote from
Airplane: "Looks like I picked the wrong week to quit sniffing glue." Considering the
amount of times it seems like there are no interesting, newsworthy stories, we
get two between yesterday and today.
The first story, dated yesterday, is that
a key committee in congress is pushing NASA to "get moving" on developing
private space stations to replace the aging International Space Station. Two months ago, a "key staffer" on Senator Ted Cruz's committee, said
in a public meeting that
she was “begging”
NASA to release a document that would kick off the second round of a
competition.
There has been no movement since then, as NASA has yet to release this
“request for proposals.” So this week, Cruz stepped up the pressure on the
space agency with a
NASA Authorization bill
that passed his committee on Wednesday.
Regarding NASA’s support for the development of commercial space stations,
the bill mandates the following, within specified periods, of passage of the
law:
-
Within 60 days, publicly release the requirements for commercial space
stations in low-Earth orbit
-
Within 90 days, release the final “request for proposals” to solicit
industry responses
-
Within 180 days, enter into contracts with “two or more” commercial
providers for such stations
Cruz is trying to inject some sort of sense of urgency into the agency, which
doesn't seem have one. Several private companies - including Axiom Space, Blue
Origin, Vast, and Voyager - are finalizing designs for space stations. All have
expressed a desire for clarity from NASA on requirements for their space
stations; requirements such as how long the space agency would like its
astronauts to stay on board, the types of scientific equipment needed, and
much more.
This has got to be rough for the companies trying to put up their own space
stations. Unlike just about any business you can think about starting here on
the ground, there hasn't been a private industry that got space stations
going. What do they charge? Getting there is going to be expensive, but
getting to space has always been expensive. It's just not going to be the only
expensive part. I suppose NASA will be the best source for info that there is,
but ultimately, the company leasing time on their station is going to have to
make a profit and there will need to be enough demand to keep the business
running. There's just no existing model to base their rates on.
Nominally, NASA plans to have one or more of these companies operating a
commercial space station in low-Earth orbit by 2030. This is the date at
which the US space agency has stated it will retire the aging laboratory,
some elements of which are now nearly three decades old. However, some space
policy officials have questioned whether any of the companies might be ready
by then.
Cruz and other senators on the committee appear to share those concerns, as
their legislation extends the International Space Station’s lifespan from
2030 to 2032 (an extension must still be approved by international partners,
including Russia). Moreover, the authorization bill states, “The
Administrator shall not initiate the de-orbit of the ISS until the date on
which a commercial low-Earth orbit destination has reached an initial
operational capability.”
With this legislation, the US Senate is making clear that it views a
permanent human presence in low-Earth orbit as a high priority. This version
of the authorization legislation must still be passed by the full Senate and
work its way through the House of Representatives.
Rendering of the first Axiom habitat module attached to the International
Space Station. Credit: Axiom Space
There's only a handful of companies looking to provide this service, and the
source article only interviewed a couple of them: Max Haot, CEO of Vast
Space and Dr. Jonathan Cirtain, CEO of Axiom Space. Neither wanted a hard,
fixed date to de-orbit the ISS, but were confident they can be ready to
provide hardware in the time frame a 2030 de-orbit would require.
The second big story is centered on Artemis and the goal of establishing a
sustained human presence on the moon.
Last week brought some big changes to the whole Artemis program
and how to improve the chances of success. The changes focused largely on
increasing the launch cadence of NASA’s large SLS rocket and putting a greater
emphasis on lunar surface activities. The problem is that there was no mention
of how to resolve the problem that created the Lunar Gateway was developed to
work around. The enormous SLS is not powerful enough to bring four astronauts
to the surface of the moon.
The concept eventually turned into a space station in lunar orbit - the
Gateway - an absurd compromise that would allow Artemis to get to the moon by
launching to that Near Rectilinear Halo Orbit (NRHO), docking the astronaut
carrying - Orion capsule to the Gateway, and taking another new vehicle, a
lunar lander, down to the lunar surface. NASA has contracted with SpaceX
and Blue Origin to develop these landers, Starship and Blue Moon MK2,
respectively.
As part of his announcement, Isaacman said a revamped Artemis III mission
will now be used to test one or both of these landers near Earth before they
are called upon to land humans on the Moon later this decade.
NASA will launch Artemis III next year, he said, to be followed by one or
possibly even two lunar landings in 2028. A single landing before the end of
2028 seems like a stretch, even for glass-half-full optimists in the space
community. And for there to be a chance of happening, SpaceX or Blue Origin,
or both, need to get hustling quickly.
Isaacman is becoming more aware of these challenges, and one of his first
moves as administrator was meeting with engineers from both SpaceX and Blue
Origin to hear their ideas for accelerating NASA’s Artemis timeline.
After this meeting on January 13,
Isaacman said
NASA would do what it could to facilitate the faster development of a Human
Landing System: “We will challenge every requirement, clear every obstacle,
delete every blocker and empower the team to deliver… and we will do it with
time to spare.”
An unstated law of the universe is that the more contractors there are
involved (who all tend to be competitors of each other) the more complicated
the mess becomes.
For example, to reach the Moon during the initial Artemis missions, a lander
must dock with the Orion spacecraft. That may sound routine, as spacecraft
have been rendezvousing and docking in space for six decades.
However, Orion is saddled with thousands of requirements, and virtually
every decision point regarding docking must be signed off on by the lander
company—SpaceX or Blue Origin—as well as NASA, Orion’s contractor Lockheed
Martin, and the European service module contractor Airbus. Additionally,
Orion has a lot of sensitive elements to work around, such as the plumes of
its thrusters, and engineers have spent a lot of time working on issues such
as ensuring consistent cabin pressures between vehicles. In short, it gets
complicated fast.
One of the ways NASA is trying to help simplify things is to eliminate the
NRHO, an elliptical orbit that comes as close as 3,000 km to the surface
of the Moon with its high point as far as 70,000 km from the moon. The intent is to not build the Lunar
Gateway, partly because the requirement to dock to the Gateway in that NRHO
added requirements that make the mission harder.
Why not simply have Orion meet the landers in a low-lunar orbit, similar to
the Apollo Program? This would allow the landers to consume less propellant
on the way down and back up from the Moon. The reason is that, due to a
number of poor decisions over the last 15 years, the Orion spacecraft’s
service module does not have the performance needed to reach low-lunar orbit
and then return safely to Earth. Hence the use of a near-rectilinear halo
orbit.
However, a research paper published in July 2022 by NASA engineers at
Johnson Space Center analyzes several other circular and elliptical orbits
that Orion could reach with its present propulsive capabilities. Out of this
analysis came another useful orbit with a name that just rolls off the
tongue: Elliptical Polar Orbit with Coplanar Line of Apsides, or EPO/CoLA.
The source article goes into a few paragraphs on whether both lander
contractors, SpaceX and Blue Origin can get moving fast enough to meet this
improved schedule. Here's where the years of watching these things being
developed makes me think that if you need good and fast SpaceX is generally
the safest option to go with.
Image from Casey Handmer's blog. He put this graphic together to put raw
numbers in front of all the faces who need to know.
This isn't wrong so much as it isn't the full picture and Handmer points that
out. In the upper right, that $31.6 billion cost doesn't include the SLS.
Orion and SLS have burned through nearly $100b - so far.
