Tag: commercial

Auditor condemns Ariane 6

10:30 am

Capitalism in space: France’s independent government auditor has issued a new report that badly slams Arianespace’s next generation rocket, Ariane 6, accusing its design as being too cautious and too expensive, thus guaranteeing it will fail to compete with the reusable rockets now in use as well as being developed in the U.S.

This is the scathing assessment of France’s independent state auditor in a report that picked apart the flawed economic model behind Ariane 6, the next generation of rocket-launchers set to start operating in 2020.

It made the point that Europeans, who have taken part in developing the launcher, went for a “cautious” approach and invested in the kind of controlled technology that potential clients in the continent had no faith in, even back in 2014. This means that Ariane 6 is stuck in the past and “risks not being competitive over the long term.” Its U.S. rivals are way ahead and already testing future disruptive technologies. [emphasis mine]

The highlighted text is proven by the apparent unwillingness of Arianespace’s European partners to sign contracts for Ariane 6.

This isn’t really news. See for example this February 13, 2018 report on Behind the Black. Or this one from September 2017, where ArianeGroup first outlined the prices they expected to charge for Ariane 6. Then, I predicted what France’s auditor has only now realized:

Will these prices be competitive in 2020s? I have my doubts. I estimate, based on news reports, that SpaceX is charging about $40 million today for a launch with a reused first stage, and $62 million for a launch with an entirely new rocket. Give them another five years of development and I expect those prices to drop significantly, especially as they shift to entirely reused first stages for almost every launch and begin to demonstrate a routine launch cadence of more than one launch per month.

This quote…explains how ArianeGroup really intends to stay alive in the launch market: “The price targets assume that European governments — the European Space Agency, the European Commission, Eumetsat and individual EU nations — agree to guarantee the equivalent of five Ariane 62 missions per year, plus at least two missions for the light-lift Vega rocket.”

In other words, ArianeGroup really doesn’t wish to compete for business. It wants to use government coercion to force European space agencies and businesses to buy its product. They might get that, but the long term result will be a weak European presence in space, as everyone else finds cheaper and more efficient ways to do things. [emphasis mine]

Based on recent stories, it seems that ArianeGroup has been unable to force European space agencies to buy Ariane 6. Thus, the rocket faces failure, before it even launches.

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A look at SpaceX’s upcoming launch schedule

10:02 am

Link here. It appears that the launch dates for both Falcon Heavy launches depend entirely on when the first Falcon 9 manned Dragon test flight takes place.

With Demo-1 having priority, the final preparations for Arabsat [using Falcon Heavy] will not be able to begin until the Demo-1 launch has occurred as there is only so much space in the Pad 39A hangar. With that in mind, Arabsat 6A will likely occur in the second half of March at the earliest, as NASA announced on Wednesday that Demo-1 is now targeting no earlier than March 2nd, 2019.

While the March 2nd launch date for Demo-1 is still tentative, it is understood that the Space Station’s Visiting Vehicle Schedule does have availability for a launch on that date should the NASA and SpaceX teams be ready.

Once Demo-1 and Arabsat are out of the way, Pad 39A will not be done supporting high profile missions. SpaceX will work to quickly turnaround the first stage boosters from the Arabsat 6A flight in order to reuse them for the STP-2 mission – the second Falcon Heavy launch of the year. STP-2 is a mission for the U.S. Air Force which will feature several technology demonstration payloads. According to FCC filings, the launch is currently scheduled for no earlier than April 30th, 2019. However, since this mission requires boosters from the Arabsat 6A launch, SpaceX will require several weeks between the two flights to refurbish the cores.

Therefore, STP-2 is directly connected to the launch schedule for Arabsat 6A which is in turn connected to Demo-1’s schedule. Consequently, the odds of a slip with STP-2’s date are high, as two major dominos currently stand in front of it.

In addition, the date for SpaceX’s launch abort test of Dragon depends entirely on the completion of the Demo-1 flight, since they plan to use that same capsule in the abort test.

Though there are a handful of other launches described in the article through April, but much of SpaceX’s schedule for the spring depends entirely on whether NASA can get off its duff and allow the Dragon test mission to fly. If NASA continues to drag its feet, everything else will get delayed. It would seem that at some point SpaceX might even have the right to demand financial compensation from NASA for the loss of income NASA is causing it. They don’t get paid for any of these launches until they fly, and thus NASA is preventing them from earning money from other customers.

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NASA confirms new Dragon launch date

12:29 pm

Confirmed: NASA today announced a new launch date, March 2, for the first unmanned test flight of SpaceX’s manned Dragon capsule.

The agency now is targeting March 2 for launch of SpaceX’s Crew Dragon on its uncrewed Demo-1 test flight. Boeing’s uncrewed Orbital Flight Test is targeted for launch no earlier than April.

These adjustments allow for completion of necessary hardware testing, data verification, remaining NASA and provider reviews, as well as training of flight controllers and mission managers.

This is actually the first time that NASA itself has specified a launch date, which suggests to me that they finally have admitted that they cannot hold things up any longer. Based on this announcement and assuming the weather and everything else cooperates, the launch will likely happen then, which will also allow time for SpaceX to get the launchpad reconfigured for its Falcon Heavy launch a week later.

The announcement also listed the remaining test schedule for commercial crew, as it stands now:

  • SpaceX Demo-1 (uncrewed): March 2, 2019
  • Boeing Orbital Flight Test (uncrewed): NET April 2019
  • Boeing Pad Abort Test: NET May 2019
  • SpaceX In-Flight Abort Test: June 2019
  • SpaceX Demo-2 (crewed): July 2019
  • Boeing Crew Flight Test (crewed): NET August 2019

The manned flights have not been pushed back significantly from the dates that NASA announced in October, June for SpaceX and August for Boeing. I would expect that the delays now will force these dates to get delayed as well.

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One smallsat satellite company hires another

10:07 am

Capitalism in space: One smallsat satellite company, Exolaunch, has hired another smallsat company, Momentus, to provide it with in-space transportation capabilities.

Exolaunch, the German launch services provider formerly known as ECM Space, signed a contract to pay in-space transportation startup Momentus more than $6 million to move satellites in low Earth orbit in 2020 with a service called Vigoride and from low Earth to geosynchronous orbit in 2021 with Vigoride Extended.

With Vigoride, Exolaunch will send “cubesat and microsatellite constellations to multiple orbits, giving clients an unprecedented flexibility of satellite deployment, reducing the price of launch, and giving access to orbits not typical for ridesharing vehicles,” Dmitriy Bogdanov, Exolaunch chief executive, said in a statement. “We also plan to deliver smallsats to geosynchronous orbit using the Vigoride Extended service. Momentus will enable us to service a larger segment of the market by enabling our customers to reach custom orbits in an efficient and cost-effective manner.”

Essentially, Momentus is building a cubesat-sized rocket engine that can be used to transport other cubesats from one orbit to another. The engine apparently uses water as the fuel in a ion-type engine, and will be tested in space for the first time in the next few months.

Momentus’s business plan seems quite clever. Up until now smallsats, especially those launched as secondary payloads, have not had a way to change their orbits, once deployed from their rocket. Momentus is offering this capability, at the very moment we are about to see a boom in the number of smallsats launched.

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Boeing partners with commercial supersonic jet startup

2:36 pm

Boeing today announced that it is partnering with startup Aerion Corp to build a 12-passenger commercial supersonic jet, dubbed the AS2.

Boeing said it would provide engineering, manufacturing and flight-test resources to bring the AS2 to market. The amount of the investment wasn’t disclosed.

The first flight for the plane — which, at about 1,000 miles per hour, will cruise 70 percent faster than today’s quickest business jets — is scheduled for 2023. Launch customer Flexjet, a fractional aircraft operator, has ordered 20 of the models. The 12-passenger aircraft has a list price of $120 million.

This isn’t the first or only private effort going on right now to develop supersonic jets for commercial travel. Another company, Boom Supersonic, has raised significant capital and already has its own orders for planes, though as far as I can tell it did not fly its initial test flights in 2018, as they had promised.

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Decline continues in 2018 in geosynchronous satellite industry

9:39 am

Capitalism in space: According to this article from Space News, 2018 saw a continuing decline in orders for the construction of new large geosynchronous communications satellites.

Last year’s poor harvest of five commercial orders for large geostationary communications satellites proved even worse than 2017’s surprise low of just seven orders. Manufacturers continue to vie for fewer such contracts as satellite operators hold off buying new spacecraft while they wait for breakthrough advances in high-throughput technology and assess the potential of small-satellite constellations. [emphasis mine]

The highlighted text provides the explanation. The decline isn’t because the use of space for communications is going away, but because the technology is shifting from a handful of large geosynchronous satellites to many tiny low orbit constellations. What this means for the launch industry is that the smallsat rocket companies (Rocket Lab, Virgin Orbit, Vector) are in the driver’s seat, while the big rocket companies (SpaceX, Arianespace, ULA, etc) might be left holding the bag. These big rockets won’t go away either, but will become much more dependent on government contracts, either for the military or for civilian manned space.

The article provides a very detailed overview of 2018 and is definitely worth a full read.

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SpaceX test fires next generation rocket engine

9:16 am

Capitalism in space: This week Elon Musk tweeted pictures of the first static test firing of the first flight Raptor engine, to be used on SpaceX’s next generation rocket, the Super Heavy first stage and the Starship upper stage.

The billionaire entrepreneur also tweeted out several videos of the 3-second test, which took place at the company’s development facility in McGregor, Texas.

Starship is the 100-passenger stainless-steel vehicle SpaceX is building to take people and cargo to Mars and other distant destinations. Starship will launch atop a giant rocket SpaceX calls Super Heavy. Both of these vehicles will be reusable and Raptor-powered. Starship will sport seven of the new engines, and Super Heavy will use 31 Raptors to get off the ground.

A “hopper” prototype that SpaceX will use to test the Starship design on short flights within Earth’s atmosphere will have three Raptor engines. This hopper will debut soon, Musk has said — perhaps within the next month or so, if everything goes according to plan.

This engine appears to be the first built with the intention to actually fly, and is likely going to be used in that “hopper” prototype.

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Unmanned test flight of manned Dragon delayed again?

10:36 am

SpaceX has applied for a new launch license from the FAA for its unmanned test flight of its manned Dragion capsule that sets the launch date as no earlier than March 2nd.

This does not necessarily mean the launch is delayed until then. As noted by commenter Kirk Hilliard here at Behind the Black, “their previous license was valid through 1 March, so they may just be covering their bases here while still planning on launching under the authority of their previous license.”

Regardless, I have seen nothing to change my opinion about the cause of these delays: the NASA bureaucracy. SpaceX has been ready to do this launch since December. It has already done two successful launch rehearsals, one in which they did a successful static fire test, as is standard for the company. Both illustrate their readiness. The launch would use their leased launchpad using their launch crew. There has been no indication of any technical reason for the delays, other than a demand that SpaceX complete paperwork for NASA and the government shutdown (which has not prevented other launches from government facilities).

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ULA gets launch contract for Lucy asteroid mission

10:21 am

Capitalism in space: NASA has awarded ULA a $145 million contract to launch the Lucy asteroid mission on its Atlas 5 rocket.

The price is high for such a launch in today’s market, and is even higher than the cost of some recent military launches, which routinely tack on extra requirements that cause the price to rise. I wonder why. Is it because NASA doesn’t care how much it spends? Or is there a political component here, providing a contract to a company that is having trouble winning contracts in the private sector because their price is too high?

It could be that the mission requires things from the launch that add to the cost. The press release mentions that it “includes the launch service and other mission related costs” but does not specify what they are.

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We are one step closer to the first replicator

10:01 am

Scientists have developed and tested a 3D printing technique that quickly creates entire objects as a unit, rather than building them by layers.

Here’s how it works. First, the researchers use a computer-controlled digital light projector to cast a series of 2D images through a rotating vial containing a photosensitive gel. As the vial rotates, photons entering from different angles meet at selected spots in the gel. Where they meet, their combined energy solidifies the gel. Where that meetup doesn’t occur, the photons simply pass through without altering the photosensitive material.

The approach is fast, able to create complex objects, such as a centimeter-size copy of Rodin’s famous sculpture of The Thinker in just minutes, the researchers report today in Science. It can also make 3D plastic parts around existing objects, such as a plastic handle around a metallic screwdriver shaft. The approach could also be useful for encapsulating sensitive electronics, the authors write.

If you go to the supplementary material for their paper, you can watch several videos showing this process at work, creating both the Thinker as well as a ball in a cage.

I think I have reported on this process previously, but this new paper shows a significant advance. Nonetheless, this engineering here is still very preliminary.

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Local downrange homeowners have announced their opposition to Georgia spaceport

9:48 am

Capitalism in space: A local homeowners association today announced its opposition to the proposed commercial spaceport in Camden County, Georgia.

Cumberland and Little Cumberland Islands have just become the first communities in America to be directly downrange from a vertical launch spaceport awaiting license approval from the FAA. More than sixty private homes lie in the path of rockets that Camden County commissioners hope someday to launch.

In the history of U.S. space flight, neither NASA nor the FAA have permitted a vertical launch over private homes or people directly downrange. The risk to people and property from an exploding rocket is too great.

If they are truly downrange from the launchpads, I would say their objection is 100% valid, and the spaceport application should be denied. And I suspect this is true, since the county had an analysis done on this subject but has refused to release it.

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Maxar cancels its DARPA satellite servicing mission

9:50 am

Capitalsm in space: Maxar today announced it is canceling its DARPA mission to develop and fly a robotic mission aimed at servicing geosynchronous satellites.

Maxar Technologies’ Space Systems Loral division terminated an agreement to build DARPA’s Robotic Servicing of Geosynchronous Satellites spacecraft Jan. 30, leading to a potential recompete of the program. Maxar said it also canceled a contract with Space Infrastructure Services, a company it created that would have commercialized the RSGS servicer after a DARPA demonstration, starting with an in-orbit refueling mission for fleet operator SES. Both were awarded in 2017.

…The cancellations come amid an ongoing divestment of SSL’s geostationary satellite manufacturing business, which has weighed down Maxar’s financial performance due to a protracted slump in commercial orders.

More background information can be found here.

It seems that the industry’s increasing shift from a few large geosynchronous satellites to small smallsats in low Earth orbit is the real cause of this decision. Maxar has realized that there won’t be that many satellites in the future to service, since the smallsat design doesn’t require it. Smallsats aren’t designed for long life. Instead, you send them them up in large numbers, frequently. Their small size and the arrival of smallsat rockets to do this makes this model far cheaper than launching expensive big geosynchronous satellites that are expected to last ten to fifteen years and would be worth repairing.

Thus, the business model for commercial robotic servicing has apparently vanished, from Maxar’s perspective. Other servicing projects however continue. From the second link:

Northrop Grumman said it plans to launch its first Mission Extension Vehicle to dock with Intelsat-901 and take over orbital station-keeping duties, extending the satellite’s service life by several more years.

Another up and coming player, Effective Space, is developing a satellite servicing vehicle called Space Drone, to provide satellite life extension services.

And SSL [a Maxar subdivision] is under contract to NASA to build the Restore-L satellite servicing spacecraft, slated to launch in 2020. Restore-L will be owned by NASA, however, and will operate in low Earth orbit, not the geosynchronous arc as was the plan for RSGS.

The last mission is intriguing because it could lay the groundwork for a robotic servicing mission to Hubble. It is being led by the same NASA division that ran all of the shuttle servicing missions to Hubble, and is using many of the engineering designs that division proposed when it was trying to sell a Hubble robot servicing mission back in 2004.

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