New Zealand Joins Space Race With Successful Launch Of Lightweight 'Electron' Rocket

"Rocket Lab: We have lift-off!" wrote long-time Slashdot reader ClarkMills on Wednesday. "History made as Electron launches successfully from Mahia." The New Zealand Herald reports: Rocket Lab engineers have started analyzing data from yesterday's historic launch from the Mahia Peninsula that took the company to space but not able to complete its orbital mission. Lift-off at 4.20 pm was the first orbital-class rocket launched from a private launch site in the world. New Zealand became the 11th country with potential to launch cargo into space, joining superpowers and tech heavyweights. The Government hailed the lift-off as a major milestone for the country's space industry...

"We didn't quite reach orbit and we'll be investigating why, however reaching space in our first test puts us in an incredibly strong position to accelerate the commercial phase of our program," said founder and chief executive Peter Beck.
Beck added they'd developed their rocket "from scratch" in under four years, and the company's official Twitter feed is now proudly tweeting photos and videos from the launch.

Congratulations, New Zealand!

[gaiageek]

That's a proud feat for such a small country. Welcome to the club.

Re:Congratulations, New Zealand!

[MangoCats]

Also a proud feat for Silicon Valley investors, who backed the Kiwi knowhow with so much cash that RocketLab is now a US company, though still managed and staffed by New Zealanders.

Re:Congratulations, New Zealand!

[twosat]

I have a small connection to this story. One of the co-founders of the company was the internet entrepreneur and space-nut Mark Stevens who changed his name to Mark Rocket. He was one of our tenants and a neighbour to us. I still remember him feeding left-over food to our hens. CEO Peter Beck set up Rocket Lab in 2006 with funding from rocket-mad angel investor Mark Rocket who became a 50% owner until he exited in 2011. Mark Rocket is booked to fly into sub-orbital space with Virgin Galactic and was the first New Zealander to book a flight.

http://www.markrocket.com/

Re:3D printed engines

[Gravis+Zero]

They probably use the same DMLS process that SpaceX uses for it's engines because it results in the strongest parts. Effectively, you add a layer of metal powder then melt the parts you want to use. Rinse and repeat. Thousands of layers later, you take your print out of the metal powder that surrounds it, clean it off and finally heat it up. The purpose of the heat is to cause every spec of metal to unite as a single chunk of metal. Since there isn't any stress on the metal after it's made into a single piece, the print is stronger than if you tried to machine it (much of which is no longer possible with modern designs).

Corrections, additional info

[gman003]

Correction: the launch was not completely successful. They were targeting an orbital trajectory, but some issue left it on a suborbital heading instead. It's suspected to be insufficient thrust, perhaps an early shutdown, from the second stage, but they haven't released much info. If this had been a paying customer, it would have been deemed a failure.

Context: Electron is a very small rocket, slightly smaller than Falcon 1. Satellites no longer have to be the huge beasts they were in the 70s and 80s; you can get a useful satellite in a much smaller, lighter package. Rocket Lab hopes to tap that market, with a particular focus on small imaging or mapping satellites. They'll be cheaper than a larger rocket ($5M), much more expensive per-pound ($25K/kg vs $6K/kg for F9, $12K for Atlas) but they hope the advantage of picking your own orbit instead of having to share a launcher and resulting trajectory with

Additional info: The Rutherford engine is kind of interesting. It uses a battery-fed electric pump for the fuel and oxidizer (which is standard kerolox), rather than using a preburner and turbopump. This technically increases specific impulse considerably, but it makes for a very heavy engine. The main advantage is the sheer simplicity of it - it's very hard to go wrong. I do not expect this design to scale well to larger designs - you need to move a lot of propellant, and having enough batteries to power it would be ridiculously heavy. It quickly becomes easier to just waste a bit of fuel to run the pumps - kerosene is more energy-dense than LiPo, after all.

The design is similar to a scaled-down Falcon 9, in that it uses a single engine design for both stages, nine on the first stage, one on the second stage. This is a great way to keep development and production costs down, although if you're willing to put in the effort, you can get a much more efficient second-stage engine (Blue Origin is taking this route).

Re:Corrections, additional info

[Kjella]

They'll be cheaper than a larger rocket ($5M), much more expensive per-pound ($25K/kg vs $6K/kg for F9, $12K for Atlas) but they hope the advantage of picking your own orbit instead of having to share a launcher and resulting trajectory with [others?]

I would think that's a viable market, if you want to observe one spot because you're an Aussie satellite watching Australia you can launch in a polar orbit to make it loop the same place over and over again 14-15 times a day, which few other satellites would have a need for. If you're doing sun-sync polar or GTO or some other "standard" orbit, not so much.

Re:Corrections, additional info

[gman003]

Are you looking at Falcon 1 or the unflown Falcon 1e, and are you looking at payload mass, takeoff weight, or physical dimensions?

Electron is about a quarter the mass of Falcon 1 (10Mg vs 40Mg), but can carry a payload half the size (225kg vs 430kg to SSO, although Falcon 1 never flew with more than 180kg), and is of similar dimensions (17m vs 21m height, 1.2m vs 1.7m diameter).

Re:Low expectations unreached

[DanDD]

The first stage ignited and flew to deploy the second stage. The first stage was not a failure.

The second stage ignited, but failed to reach the intended altitude.

The electric pumps functioned well enough for the 2nd stage to reach space.

The 3D printed components did not fail catastrophically, nor did the electrical system, or the electric fuel pumps.

While the overall mission was not a success, a vast majority of the individual systems worked as intended. Many milestones were crossed. In the long run the electric pumps might not pan out, but if you don't try you'll never know. Also, this alternate method of pumping fuel into the engine might lead to more capability and flexibility in controlling thrust, which could make landing and re-use even easier.

Re:Hum...

[JaredOfEuropa]

Putting stuff in space is still useful, and they are building modern rockets of their own design rather than copying 60 year old designs, so I wouldn't say they are 60 years late. IF BMW design a new car, you wouldn't call them "late" either. Also, designing and manufacturing rockets is still bloody hard, so yeah I'd say it's something to be proud of. As for how useful this is vs. buying launch slots elsewhere, I don't know. If they can do it cheaper, great. If they can find clients willing to pay for launches, great. If they learn something in the process that they can apply elsewhere, swell. If they come up with innovations that advances the field of spaceflight for everyone, even better.

Re:Low expectations unreached

[MangoCats]

Aye, as compared to the dramatic public failures of the early US space program, and the undoubtedly equally dramatic secret failures of other programs, this was a good first launch, great even.

I'm wondering aloud now, did the 2nd stage falter for something as simple as the LiIon battery packs getting too cold? They say they have 20,000 channels of data to analyze, will be interesting to compare how that kind of monitoring affects progress. Certainly you would expect fewer dramatic failures, but will it make things go faster or slower with respect to overall development progress in time and/or money. In other words, they might be burning less time and money with failed launch attempts, but is the cost of collecting and analyzing all the data even higher? I'm sure it can be overdone, and underdone and that there's a sweet spot somewhere in the middle.

Re: Von Braun was certainly a Nazi

[koomba]

Most with basic human decency? I'm sorry, but I just can't agree with that. Yes, the measures taken against Germany after WW1 were pretty harsh and probably went too far in some respects. And yes, there were of course large chunks of the population that were not the terrible, evil people who carried out all the atrocities. But the mass murdering of the Holocaust was a huge, organized and industrialized endeavor. The Nazis murdered some 11 million people in concentration camps, 6 million of which were Jews. An operation of that size, that went on for years, is not something that was or could be done in secret. It's estimated there was some 200,000 people directly involved in carrying it out. With that many people a part of it, there was no way that large parts of the population didn't know what was going on. And they didn't just start killings them right away. It started as a gradual process, slowly taking away more and more rights for Jews, more and more oppression and marginalization, and progressively stricter policies towards them. So to me, the fact that there was not wide spread opposition to all that way before they actually started rounding them up says that the general population was okay with it. They had no problem vilifying the Jewish citizens as a scapegoat for Germanys woes, economic problems and general state of being after their humiliating WW1 defeat and subsequent punishment. Maybe society as a whole was just more bigoted then, but that's still no excuse for a lack of massive, nationwide resistance to the atrocities committed by their government. So I can't agree that most of them had normal human decency.