Tag: spaceflight

A detailed look at Rocket Lab’s Electron rocket

8:50 am

Link here. The article provides some details about the first two launches, but its most interesting section discusses the rocket’s Curie kick stage.

“We kind of made a philosophical decision in that we weren’t going to do multiple burns on the second stage because what that does is it puts the second stage in orbit, in high orbit,” said Mr. Beck. “What we’re trying to do here is launch frequently, and the way that we’ve designed our trajectories is that the second stage will always go into a transfer orbit, which is a nice elliptical orbit, where it deorbits very quickly, and then we use the kick stage to do any orbit raising or circularization.”

This design was specifically chosen so that Rocket Lab would not put large second stages into orbit and would fly responsibly by deorbiting Electron’s second stage quickly so as not to contribute significantly to the space debris environment. “We build this infrastructure in orbit in a sustainable way, and leaving second stages in high orbits is not really conducive to that. So what it means is … we’re just putting a little Curie module up into orbit, and we also have deorbit capability on that, too.”

Moreover, the Curie kick-stage was a direct result of Rocket Lab talking to and listening to their customer base – who wanted to make sure that on ride share missions of Electron that all payloads were separate safely and not re-contact other small satellites launched/deployed on that same mission.

No word yet on when they will fly next, though it sounds as if there will be a number of launches this year, at an ever-increasing pace.

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Jupiter has a 1,900 mile deep atmosphere

5:13 pm

The uncertainty of science: New results from Juno reveal that the jet-stream-type bands visible on the surface extend down to 1,900 miles, deeper than expected. Below that,

…the planet rotates nearly as a rigid body.”This is really an amazing result, and future measurements by Juno will help us understand how the transition works between the weather layer and the rigid body below,” said Tristan Guillot, a Juno co-investigator from the Université Côte d’Azur, Nice, France, and lead author of the paper on Jupiter’s deep interior. “Juno’s discovery has implications for other worlds in our solar system and beyond. Our results imply that the outer differentially-rotating region should be at least three times deeper in Saturn and shallower in massive giant planets and brown dwarf stars.”

Scientists had not expected the atmosphere go that deep.

Other results show that that the gas giant’s complex polar regions are surprising as well.

Its north pole is dominated by a central cyclone surrounded by eight circumpolar cyclones with diameters ranging from 2,500 to 2,900 miles (4,000 to 4,600 kilometers) across. Jupiter’s south pole also contains a central cyclone, but it is surrounded by five cyclones with diameters ranging from 3,500 to 4,300 miles (5,600 to 7,000 kilometers) in diameter. Almost all the polar cyclones, at both poles, are so densely packed that their spiral arms come in contact with adjacent cyclones. However, as tightly spaced as the cyclones are, they have remained distinct, with individual morphologies over the seven months of observations detailed in the paper.

“The question is, why do they not merge?” said Adriani. “We know with Cassini data that Saturn has a single cyclonic vortex at each pole. We are beginning to realize that not all gas giants are created equal.”

I am always baffled when scientists are surprised at the infinite variety of the universe. It is absurd to assume Jupiter and Saturn would be alike, especially considering the history of solar system exploration since the dawn of the space age. Since the first probe got a close look at the Moon, every single new object observed has been completely different from every other previously observed object. Every object has been unique. None have been the same.

Jupiter should be no different. And I guarantee that the next fifty gas giants we finally get a close look at out there among the stars will be as different from each other as they are from Jupiter. It is going to take a lot of exploration for us to finally get a handle on the overall patterns of planetary formation.

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Tiangong-1 reentry update: April 3rd, give or take a week

3:36 pm

Tiangong-1 landing map

Link here. Right now the de-orbit window of the dead Chinese space station suggests it will come down to Earth sometime around April 3, plus or minus a week. As we get closer this will get refined somewhat, but the uncertainties are always going to be great, until the actual moment it hits the atmosphere.

The map on the right, reduced to post here, comes from the link and was produced by the Aerospace Corporation and indicates the relative possibilities of debris falling in a given region.

Yellow indicates locations that have a higher probability while green indicates areas of lower probability. Blue areas have zero probability of debris reentry since Tiangong-1 does not fly over these areas (north of 42.7° N latitude or south of 42.7° S latitude). These zero probability areas constitute about a third of the total Earth’s surface area.

Depending on orbit, and whether the station is heading north or south in its orbital inclination, the odds of it crashing in populated areas changes significantly. If it is moving north the odds of coming down in the populated mid-latitudes of the northern hemisphere go up considerably. Of course, it could just as well come down in the northern mid-latitudes above the Pacific.

Regardless, the risks remain tiny, no matter what. Tiangong-1 is a small module, just large enough for some of it to survive reentry.

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ESA successfully tests an air-breathing ion thruster

8:01 am

Engineers from the European Space Agency (ESA) and an Italian company have successfully tested a prototype of an ion engine that would obtain its fuel from the thin atmosphere available in low Earth orbit, thus allowing it to operate practically indefinitely.

From the press release:

Replacing onboard propellant with atmospheric molecules would create a new class of satellites able to operate in very low orbits for long periods. Air-breathing electric thrusters could also be used at the outer fringes of atmospheres of other planets, drawing on the carbon dioxide of Mars, for instance. “This project began with a novel design to scoop up air molecules as propellant from the top of Earth’s atmosphere at around 200 km altitude with a typical speed of 7.8 km/s,” explains ESA’s Louis Walpot.

Think about it. You supply your planetary probe one or more of these engines, and once it reaches orbit around its target it has an unlimited fuel supply to do research just about forever. More important, such technology when further refined is going to enhance human exploration as well. For example, rather than use the atmosphere at it arrives, later designs could simply dive into the atmosphere to get the spaceship’s tank refilled. Such engines would make spacecraft free from the tether of Earth.

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Ground too hard for Curiosity’s drill

7:47 am

A second drill attempt by Curiosity, using an improvised drilling technique designed to bypass the failure of the drill’s feed mechanism, once again failed to drill deep enough to obtain a sample.

After two drilling attempts, Curiosity’s drill was not able to dig into the bedrock sufficiently to collect a sample of rock at this location. Curiosity’s engineers are continuing to refine the new drilling method. In the future, this might include adding percussion, which could enable drilling into harder rock.

Either the ground on Vera Rubin Ridge is too hard for Curiosity’s drill, or the new drilling technique does not allow the drill to push with the same force as previously. The update at the link implies the former, but I suspect the latter is a factor as well.

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SpaceX successfully launches commercial communications satellite

10:43 pm

SpaceX tonight successfully launched a commercial communications satellite. They did not recover the first stage because the seas were too rough to send out the drone ship.

The leaders in the 2018 launch standings:

7 China
5 SpaceX
3 Japan
3 ULA
2 Russia

Though I have removed Rocket Lab as an American company, crediting it instead to New Zealand, the U.S. still has 8 successful launches total, one more than China.

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America’s first space weatherman gets to say “Go!” again

9:24 am

John Meisenheimer, the launch weather officer who gave the go-ahead for the first successful American satellite launch, Explorer 1 on January 31, 1958, was honored at the 60th anniversary of that first launch by having him to give the go-ahead for GovSat 1, launched on January 31, 2018.

The story is very touching, especially because Meisenheimer had scrubbed the Explorer 1 launch twice previously because he did not trust the weather. In 1958 he alone had that power, and no one questioned it. When the rocket flew, it was because he had decided the weather was no longer an issue.

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China’s space station delayed to 2020

8:15 am

Because of redesign work required on its Long March 5 rocket, China revealed today that the launch of the first module, Tianhe, of their planned space station, has now been set for 2020.

Launch of Tianhe had earlier been planned for 2018, but the launch failure in July last year of the Long March 5 rocket, a heavy-lift launch vehicle required to loft the 20-tonne space station modules to low Earth orbit, meant a delayed schedule.

The next attempt at a Long March 5 launch, which will send a large telecommunications satellite into a geostationary transfer orbit, will take place from Wenchang in the second half of 2018. If that is successful, it will pave the way for a test launch of the low Earth orbit variant of the rocket, the Long March 5B, around June 2019. The follow-up flight will then launch the Tianhe module, now set to take place in 2020.

During the Soviet era, it was not unusual for the Russians to suddenly invent a new variant of a rocket or space capsule in order to provide cover for their need to redesign or fix problems. That is what I think is happening here. Until the still unexplained launch failure of Long March 5 in July 2017, I had never heard of a Long March 5B. It was the Long March 5 that was going to do all the heavy lifting.

Now we suddenly have a Long March 5B, a “low Earth orbit variant of the rocket.” I increasingly suspect that the problems with Long March 5 were so serious that they have caused a complete redesign. It was able to get its first payload into orbit, but not its second. The failure was not accompanied by any catastrophic event, which suggested, based also on later reports, that the rocket’s first stage engines simply under-performed significantly. I wonder now if what China is doing now is making that weak rocket the 5B, while they redesign the 5 so it can lift the big payloads required.

We also cannot trust them entirely with the naming they use of their rocket for each launch. The next Long March 5 launch in 2018 might actually be the 5B variant, without the name, and the so-called first test of the 5B in June 2019 might actually be the first test of the full powered 5.

Wheels within wheels!

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Testing of Blue Origin’s BE-4 rocket engine continues

7:41 am

Though he released few details, a Blue Origin company official noted at a conference last week that the company has been continuing its tests of the BE-4 engine.

“We’re getting longer duration burn times. We’re going though validating the turbomachinery very closely,” said Jim Centore, group lead for orbital mission operations at Blue Origin, during a panel discussion on launch systems at the conference. Centore didn’t disclose many details about those tests, such as thrust levels or the burn times, either of individual tests or cumulatively. “We’re continuing to make good progress,” he said. “We’ll continue that for the next several months.”

The BE-4 is the linchpin for numerous other future rockets. Blue Origin wants to use it for building its New Glenn rocket. ULA is considering it as the first stage engine for its Vulcan rocket. In both cases, design and construction of the rockets themselves can’t really proceed until the engine is locked down.

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More weird Mars geology

8:55 am

Low resolution of full image of crater

Cool image time! Yesterday the Mars Reconnaissance Orbiter team released 460 images taken by the spacecraft’s high resolution camera, HiRISE, as part of their normal and routine image release program. Obsessed with space exploration as I am, I like to scan through these new images to see if there is anything interesting hidden there that will show up eventually in a press release. For example, the first image in this release is a look at Vera Rubin Ridge and Curiosity. I would not be surprised if there is a press release soon using this image, probably aimed at outlining the rover’s future route up Mount Sharp. (The present overview traverse map is getting out of date.)

Sometimes however I find images that might never get a press release but probably deserve it. The image on the right, reduced in resolution to show here, is one such example. It is a strip taken from rim to rim across an unnamed crater located in the mid-northern latitudes of Mars, west of Olympus Mons. A review of past images by other Mars orbiters/probes suggests that no good high resolution image of this crater had ever been taken before.

If you click on the image on the right, or go to the actual image site, you can see the original in full resolution. It is definitely worthwhile doing this, because the strip shows some strange and inexplicable geology on the floor of the crater as well in its confusing central peak region. Numerous features appear to have been exposed by later erosion. The many small craters for example are I think what planetary geologists call pedestal craters. The surrounding terrain is less erosion-resistant, so as that terrain erodes away it leaves the crater behind, with its floor actually sitting higher than the surrounding flats.

What makes these craters even weirder however is that their rims appear to have eroded away even more than the surrounding terrain, so that all of these small craters (assuming that is what they are) have ringlike depressions surrounding a circular platform.

In the crater’s central peak region the terrain is even more strange. Sticking up out of the ground are some arched short ridgelines, which appear to have been exposed by erosion. That peak area however also has many strange flow features that I find completely baffling. It almost appears to me that as the molten peak area started to solidify after impact, someone went in with a stirring spoon and did some mixing!

The map below the fold provides the location context for this crater, with the crater’s location indicated by the arrow.
» Read more

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The ever-receding Space Launch System

10:20 am

Today a story at Space News reveals that NASA has decided to forgo construction of a second mobile launcher for its Space Launch System (SLS). Instead, they will modify the one they have.

The mobile launch platform, originally built for the Constellation Program and currently being modified to support the SLS, will be used for one launch of the initial Block 1 version of the SLS, designated Exploration Mission (EM) 1. That platform will then have to be modified to accommodate the taller Block 1B version that will be used on second and subsequent SLS missions.

Agency officials said late last year they were considering starting work on a second mobile launch platform designed from the beginning to accommodate the Block 1B version of the SLS. They argued that doing so could shorten the gap of at least 33 months between the first and second SLS missions caused in part by the modification work to the existing platform.

The first mobile launcher was built and modified for an estimated $300 to $500 million. NASA obviously has decided that the politics of building a second won’t fly. The cost is too great, as would be the political embarrassment of admitting they spent about a half a billion for a launcher they will only use once. (That this mobile launcher is leaning we will leave aside for the moment.)

What this does however is push back the first manned SLS/Orion launch. At present, the first unmanned mission is likely to go in June 2020 (though don’t be surprised if that date sees further delays). If it takes 33 months after that launch to reconfigure the launcher for the first manned mission, that manned mission cannot occur any sooner than April 2023. That second launch however is planned to be the first to use SLS’s new upper stage. To put humans on it untested seems foolish, doesn’t it? NASA is going to have to fly an extra mission to test that upper stage, which is going to add further delays to the schedule.

In November I predicted that the first manned SLS/Orion mission would not happen before 2025. At the time it was assumed that the second flight of SLS would have to launch the unmanned Europa Clipper mission, in order to test that upper stage. Now however it appears that the Trump administration wants to shift Europa Clipper to a commercial launch vehicle, probably Falcon Heavy.

This means that either astronauts will be flying on an untested SLS upper stage, or NASA will have to add a test launch in April 2023, followed some time thereafter by that manned mission. Since NASA does not at present have a budget for a third mission, I am not sure what is going to happen here.

What I do know is that SLS is certain to get delayed again. By 2025 we will have paid close to $50 billion for SLS and Orion, and the best we can hope for is a single manned mission. And that one mission will have taken 21 years to go from concept to launch.

This is not how you explore the solar system. With a schedule like this, all SLS and Orion are doing is distributing pork to congressional districts and to the big space companies (Boeing and Lockheed Martin) that are building both. Establishing the United States as a viable space-faring nation is the last thing these players have in mind.

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Mars Reconnaissance Orbiter comes out of safe mode

7:28 am

On February 23 the Mars Reconnaissance Orbiter (MRO) engineering team was able to bring the spacecraft out of safe mode, after a low battery voltage reading caused it to shut down.

Mission team members brought MRO out of safe mode on Friday (Feb. 23), NASA officials said. The orbiter seems to be in good health overall; the battery voltage is back to normal, MRO is communicating with Earth, and temperatures and power levels are stable, agency officials said.

But MRO’s handlers haven’t put the orbiter back to work yet. “We’re in the diagnostic stage, to better understand the behavior of the batteries and ways to give ourselves more options for managing them in the future,” MRO project manager Dan Johnston, of NASA’s Jet Propulsion Laboratory in Pasadena, California, said in a statement. “We will restore MRO’s service as a relay for other missions as soon as we can do so with confidence in spacecraft safety — likely in about one week. After that, we will resume science observations.”

Overall this sounds like very good news.

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Curiosity attempts to drill with improvised technique

7:06 am

The Curiosity engineering team has made the first attempt to drill in more than a year, using an improvised technique that has the rover arm push the bit into the ground rather than its presently non-function feed mechanism.

This early test produced a hole about a half-inch (1-centimeter) deep at a target called Lake Orcadie — not enough for a full scientific sample, but enough to validate that the new method works mechanically. This was just the first in what will be a series of tests to determine how well the new drill method can collect samples. If this drill had achieved sufficient depth to collect a sample, the team would have begun testing a new sample delivery process, ultimately delivering to instruments inside the rover.

According to the mission update page, for some reason the drill was unable to penetrate the ground very deeply.

They plan to do more tests, with the goal of eventually getting a hole deep enough to provide good samples.

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China test fires core engine for its Long March 5 rocket

8:45 am

On February 11 China did a static fire test of the core engine for its Long March 5 rocket, that country’s largest rocket that has been grounded since a launch failure in July 2017.

The YF-77 is China’s most powerful rocket engine, burning liquid hydrogen fuel and liquid oxygen oxidiser to provide 510 kN (110,000 lbf) of thrust at sea level. A pair of these engines power the core stage of the Long March 5.

The Long March 5 heavy-lift rocket successfully debuted in late 2016 but failed to reach orbit with its second flight, in July. Following an investigation into the launch failure, it has been announced that the next launch is being planned for the second half of 2018 from the specially built Wenchang Space Launch Centre on the island province of Hainan, at 19 degrees North. No causes of the failure, which some observers pin to an underperformance of the first stage brought on by an engine issue, have been publicly revealed, and thus no indication as to whether the issue was related to design or a manufacturing problem.

The Chinese continue to be very tight-lipped about the situation with the Long March 5. This static fire test suggests however that the issue was with the core engine.

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Interorbital completes static fire test of upper-stage engine

8:11 am

Capitalism in space: The smallsat rocket company Interorbital (IOS) today released a short video showing a successfully static fire test of the upper-stage engine for its Neptune rocket.

The IOS rocket team successfully completed the first test of Interorbital’s NEPTUNE series launch vehicle’s liquid upper-stage rocket engine (GPRE 0.75KNTA). Engine performance was well within its design parameters, generating a sea-level thrust of 750 pounds and a sea-level specific impulse of 245 seconds. This translates to a thrust of 1,000 pounds and a specific impulse of 300 seconds in a vacuum (with expansion nozzle). The ablatively-cooled rocket engine is powered by the hypergolic combination of White Fuming Nitric Acid (WFNA) and Turpentine/Furfuryl Alcohol. These high-density storable auto-igniting propellants power all IOS liquid rocket engines. Interorbital’s N1 launch vehicle utilizes two GPRE 0.75KNTA engines for its second stage and a single GPRE 0.75KNTA engine for its third stage.

I have embedded the video below the fold. This is the first real news update from Interorbital in months. In April 2017 they looked like they were close to a launch, but until today there were no further updates. Part of the issue appears that they changed their approach for manufacturing their rocket in order to save cost, and this might have thrown a wrench in their schedule.

» Read more

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Japan successfully launches reconnaissance satellite

6:36 am

Japan’s space agency JAXA today successfully launched a reconnaissance satellite for the Japanese government.

The Japan Aerospace Exploration Agency and Mitsubishi Heavy Industries, the H-2A rocket’s main contractor, did not provide a live video webcast of the mission. But news media and other spectators near the launch pad streamed the launch live online, and announcements over loudspeakers at the Tanegashima press site confirmed separation of the IGS Optical 6 satellite in orbit.

The spacecraft’s specifications, including its imaging performance, are kept secret by the Japanese government. But the government has acknowledged the satellite will join a fleet of Information Gathering Satellites operated by the Cabinet Satellite Intelligence Center, which reports directly to the Japanese government’s executive leadership.

The leaders in the 2018 launch standings:

7 China
4 SpaceX
3 Japan
2 ULA
2 Russia

There have been 21 launches in the first two months, continuing January’s pace that suggests we will see more than a hundred launches in 2018, the highest number since 1990.

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Stratolaunch completes initial taxi tests

6:24 am

This past weekend Stratolaunch successfully completed its second series of taxi tests, reaching a speed of 40 knots (46 miles per hour) as it moved down the runway.

[I]n December Stratolaunch capped off the year with a successful low-speed taxi test. During the taxi, the vehicle reached a top speed of 28 miles per hour (45 kilometers per hour) as it headed down the runway. Following the test, Aircraft Program Manager George Brugg stated, “This was another exciting milestone for our team and the program. Our crew was able to demonstrate ground directional control with nose gear steering, and our brake systems were exercised successfully on the runway. Our first low-speed taxi test is a very important step toward first flight.”

Last weekend, Sratolaunch kicked off 2018 with two days of additional taxi tests. Most notably, the tests included reaching the maximum taxi speed of 40 knots (46 miles per hour). According to Allen, these tests allowed the team to “verify control responses.”

There is a tiny 35 second video of this last test at the link.

The article provides a lot of details about Stratolaunch and its future, including the suggestion that the giant airplane could become the main launch platform for Orbital ATK’s Pegasus rocket. Pegasus presently has only one launch listed on its manifest, using its L1011 Stargazer airplane.

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Microbes found that survive in the driest desert on Earth

6:18 am

Scientists have found that certain microbes can remain dormant for years in the Atacama Desert and then come to life during the rare times water is available.

The Atacama Desert stretches inland 1000 kilometers from the Pacific coast of Chile, and rainfall can be as low as 8 millimeters per year. There’s so little precipitation that there’s very little weathering, so over time the surface has built up a crusty layer of salts, further discouraging life there. “You can drive for 100 kilometers and not see anything like a blade of grass,” Neilson says. Although she and others have found some bacteria there, many biologists have argued that those microbes are not full-time residents, but were blown in, where they die a slow death.

But that didn’t deter Dirk Schulze-Makuch, an astrobiologist at the Technical University of Berlin. “I like to go to places where people say nothing is alive,” he says. “We decided to take a shotgun approach and throw all the new [analytical] approaches at everything—fungi, bacteria, viruses”—that might be there. He and his team collected samples from eight places in the Atacama—from the coast eastward to the driest places—over 3 years. They first gathered material a month after a record-setting rain in 2015, and then followed up with yearly collections in some of the same places in 2016 and 2017. They sequenced all the copies of a gene known to distinguish microbial species to determine what was in those samples and even recovered some full genomes. The researchers also did a test to determine the proportion of DNA that came from intact, living cells. Finally, they assessed the amount of cellular activity; of adenosine triphosphate (ATP), a molecule the fuels this activity; and of byproducts—including fatty acids and protein building blocks—that resulted from that activity to look for additional evidence of life.

The coastal samples contained the most number and diversity of microbes, but in 2015, there were signs of life even in the driest spots, Schulze-Makuch and his colleagues report today in the Proceedings of the National Academy of Sciences. “Following a rainfall event, there is a flush of activity and [cells] are replicating,” Neilson says.

The researchers, as well as the article, push the idea that this result makes life on Mars more possible, but I think that is pushing things quite a bit. The Earth is so filled with life that to find a spot that doesn’t have life on it is almost impossible. The odds work in the favor of hardy life in difficult places. Mars however appears generally lifeless, which makes the odds of there being life more unlikely. Moreover, while the Atacama has many similarities to Mars, the differences are quite profound. To extrapolate any possibilities to Mars from this research is a big overstatement.

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Smoking battery at Rocket Lab facility

7:46 am

Capitalism in space: Rocket Lab is investigating why one of the rocket batteries for its Electron rocket started smoking over the weekend.

Rocket Lab is investigating what caused a rocket battery to overheat and start smoking at its manufacturing facility near Auckland Airport on Sunday night. Rocket Lab spokeswoman Morgan Bailey said fire emergency services were called as a precaution to its site in Mangere at 7pm on Sunday after a battery on an Electron rocket overheated and started smoking.

She said she did not know what action was being made on the rocket when the battery overheated, but the company was looking into it.

No one was hurt in the incident.

They are clearly being tight-lipped about this, partly because of the bad press it might cause and partly because they don’t wish to reveal proprietary information.

Note that this article has me rethinking Rocket Lab as an American company. Based on this article their operations and manufacturing are both in New Zealand. It seems that even if the company was conceived and officially incorporated in the U.S., the rocket is a New Zealand born baby.

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Former Vostochny head and comrades sentenced to jail

7:40 am

Several former top managers of the lead contractor building Russia’s new spaceport Vostochny have now been sentenced to prison for embezzlement.

Yury Khrizman, former head of Dalspetsstroy, and Vladimir Ashikhmin, the company’s former chief accountant, were found guilty of abuse of office and embezzlement, a court official told Interfax. Khrizman was sentenced to 12 years in jail and Ashikhmin received seven years in jail.

“The other people implicated in the case, Viktor Chudov, former chairman of the Khabarovsk Territory’s duma, and Mikhail Khrizman [the son of Yury Khrizman], also got jail terms. Viktor Chudov received six years in a penal colony and Mikhail Khrizman was sentenced to 5.5 years in jail,” the court official said. The court also ordered the convicts to pay 5.16 billion rubles in damage as part of the Roscosmos lawsuit, he said.

Not for an instant do I believe this case cleans out the corruption in Russia’s aerospace industry. All this does it to tell all present managers that if you are going to steal, don’t steal so much that you cause a delay in the project itself. The reason these guys are going to prison is that they got greedy and stole too much, thus causing the completion of Vostochny to be significantly late, with many of its workers not getting paid.

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Curiosity science team to attempt first drilling in a year

10:54 am

After a year of tests and engineering rethinking, the Curiosity science team has decided to attempt drilling its first hole in more than a year.

From yesterday’s Curiosity mission update:

Because there is only so much data volume and rover power to go around, performing drill activities must temporarily come at the expense of scientific investigations (although you’d be pressed to find a disappointed science team member this week, as the drilling campaign will bring loads of new scientific data!). As a result, with the exception of some environmental observations by the Rover Environmental Monitoring Station (REMS) instrument, today’s plan does not have any targeted scientific observations within it. Today will instead be dedicated to drill preload activities and imaging for engineering and rover planning purposes in preparation for a full test of the revised drilling operations.

The problem with the drill has been its feed mechanism, the equipment that moves the drill downward into the hole. As designed the robot arm would get planted on the surface to provide stability for the drill, which as it drilled would be pushed downward that that feed mechanism. Last year they found something had clogged that mechanism so that it would not retract properly.

From what I understand, what they have tested and have decided to try instead is to place the drill against the surface in an extended position, and use the arm itself to push the bit downward. The concern is whether the arm can hold the drill steady. They have done some tests and think it can. We shall soon find out.

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SpaceX successfully launches Spanish radar satellite

7:28 am

Capitalism in space: SpaceX today successfully launched a Spanish radar satellite.

They also intended to try to recover the rocket’s fairing, but they did not telecast this, and there is no word yet whether they were successful. In fact, their low-key approach here suggests a shift in policy. Previously, SpaceX was eager to show off its test programs. Now, this silence suggests a desire to throttle back on that openness, possibly in order to protect their proprietary engineering.

Update: It appears that at least one fairing half landed in the water intact, though that also means they were unable to catch it. According to a Musk tweet at the link, the fairing missed the ship net by “a few hundred meters.” Musk also indicates the need for larger chutes in the future. Either way, I wonder if the fairing in the water can still be reused.

The 2018 launch standings:

7 China
4 SpaceX
2 ULA
2 Russia
2 Japan

As a nation, the U.S. now has 7 launches total, tying China.

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Bigelow establishes company to market its private space stations

8:56 am

Capitalism in space: Bigelow Aerospace yesterday established a marketing company to research and find potential customers for its private space stations.

“You’ll need deep pockets if you’re interested in staying aboard a Bigelow station; prices will likely run in the ‘low seven figures,'” Bigelow said today. He doesn’t expect tourist jaunts to make up the bulk of his business, however. “What we’ve always anticipated and expected is that we would be very involved in helping foreign countries to establish their human space programs, and be able to facilitate whatever their needs were in whatever context that they wanted to pursue,” he said. “The corporate world, obviously, is huge, and [leveraging] that is also our intent.”

Bigelow already says it will launch to of its large B330 modules in 2021, with another aimed for lunar orbit in 2022. I must note that the 2021 launch date appears to be year later then earlier announcements.

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The first SLS mobile launcher is leaning

8:49 am

Though NASA says it is not a problem, they have now revealed that the very expensive mobile launcher to be used for the first unmanned SLS launch in 2019, is leaning slightly.

The notes spoke of engineers being concerned about a lean towards the North – which would be towards the rocket when mated – with the angle of the leaning claimed to be seen as increasing when the Vertical Stabilizer porch was installed. It was also claimed the ML Tower is twisting and this issue increased when the porch was installed. This was cited as the reason additional arm installations onto the Tower were placed on hold, until the leaning-twisting issue is understood. Next in line for installation are the ICPS (Interim Cryogenic Propulsion Stage) Umbilical Arm, the Crew Access Arm and the two Vehicle Stabilizer Arms.

NASASpaceFlight.com’s Philip Sloss took the concerns to NASA to ask for clarifications. NASA responded, saying “the ML leaning/bending was not the cause of the delay in the install of the Crew access arm. These are unrelated.” However, they did expand on the specific issue, mainly to note it is understood and does not currently require any additional mitigation or modification to the ML.

“NASA’s mobile launcher is structurally sound, built to specifications, and does not require a design change or modifications. As expected, the mobile launcher is not perfectly still,” a NASA spokesperson added.

Note that this mobile launcher is not compatible with the second SLS launch, which would be the first manned flight in 2023. NASA will either have to modify it significantly at great costs, or build another, discarding this launcher after only one use.

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More details about SpaceX’s fairing recovery plans

8:36 am

Link here. The article has some additional excellent images, but it was this paragraph that I thought was most significant:

To oversimplify, after launch, the payload fairing separates (mechanically) from the second stage once Falcon 9 or Heavy has left behind the majority of Earth’s atmosphere. After separation, each fairing half orients itself for a gentler reentry into the atmosphere with cold nitrogen gas thrusters, likely the exact same thrusters used in part to achieve Falcon 9’s accurate and reliable landings. Due to their massive surface area and comparatively tiny weight, fairing halves effectively become exceptionally finicky and awkward sails falling through the atmosphere at insane velocities, with the goal generally being to orient each half like a boat’s hull to provide some stability. Once they are low enough, assuming they’ve survived the journey from TEN TIMES THE SPEED OF SOUND and 62 MILES above Earth’s surface to a more reasonable ~Mach 0.5 and maybe 5 miles of altitude, the fun parts begin. At this point, each fairing half deploys a GPS-connected parachute system (a parasail, to be exact) capable of directing the massive hunks of carbon fiber and aluminum to a very specific point on the surface of the ocean.

What we don’t yet know is whether SpaceX will have cameras on the fairing, and if so, whether they will make those images available to the public, during launch.

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Planetary Resources misses fund-raising target

8:33 am

Capialism in space: Planetary Resources has failed to meet a recent fund-raising target.

A spokeswoman for Planetary Resources, Stacey Tearne, told GeekWire that financial challenges have forced the company to focus on leveraging the Arkyd-6 mission for near-term revenue — apparently by selling imagery and data. “Planetary Resources missed a fundraising milestone,” Tearne explained in an email. “The company remains committed to utilizing the resources from space to further explore space, but is focusing on near-term revenue streams by maximizing the opportunity of having a spacecraft in orbit.”

Tearne said no further information was available, and did not address questions about employment cutbacks. However, reports from other sources in the space community suggest there have been notable job reductions. For what it’s worth, Planetary Resources had more than 70 employees at last report.

When this company first appeared with a big splash, shouting its plans to mine asteroids, I said “Bunk, it’s going to be a smallsat telescope company for years to come, either looking at the Earth or into space.” And that is where we are. The “near-term revenue streams” hinted at above are certainly the kind of earth-observation imaging that numerous other smallsat companies are providing. Whether Planetary Resources can compete with the large number of already established smallsat earth-observation companies, however, is the big question.

Mining asteroids by commercial companies for profit makes sense, and will eventually happen. I think, however, that this company oversold its abilities when it tried to convince everything that this is what it planned to do, right away.

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Giant net to catch Falcon 9 fairing

8:51 am

This link provides a series of pictures, taken from a distance, of the giant net, and the structures that hold it up, that will be used by the SpaceX barge ship to try to catch the rocket’s fairing during its next launch later this week. (See comments.)

Hat tip reader Kirk Hilliard. The pictures don’t show the barge itself, but they do give a sense of the size of the net. This suggests that SpaceX has equipped the fairing with small jets capable of guiding it to the barge, where it will be caught as it falls at high speed. It could also be that they have found that the fairing itself can act as a parachute and slow itself down as it descends, meaning that impact will not be that intense.

Regardless, I wonder if they will have any cameras on board either the fairing or the barge, and whether they will broadcast them live as it comes down. I wouldn’t be surprised if they didn’t, as it would possibly reveal proprietary information, but the images would certainly be impressive to see.

If they succeed, they will have a rocket that is almost entirely reusable, with only a single 2nd stage engine (out of 10 total) and the second stage itself not reused.

Posted from the Israeli city of Tiberius on the shore of the Sea of Galilee.

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