Rocketlab announces the Electrons big Brother The Neutron. A medium lift vehicle able to lift 8000kg (8tons) to Low Earth Orbit and 1500kg (1.5ton's) to Venus or mars.
Neutron features a reusable first stage designed to land on an ocean platform similar to SpaceX repulsive landing, enabling a high launch cadence and decreased launch costs for customers.
RELIABLE AND COST-EFFECTIVE LAUNCH SERVICES FOR CONSTELLATION DEPLOYMENT, CARGO RESUPPLY, INTERPLANETARY MISSIONS. HUMAN SPACEFLIGHT CAPABLE.
The interesting thing is they also say it human spaceflight capable. Peter Beck said "they don't fly meat" meaning launching humans into space... there won't be a bigger rocket or an Electron Heavy, and won't be reusable as it doesn't scale up on the small launcher and he would eat his hat if that happened... Rocketlab is now doing everything they said they wouldn't be doing.
This is just me but I have a funny feeling that Rocketlab are further along in the development of the Neutron Rocket than we are lead to believe. The Merger was a good time to make it public and to go public to help raise the extra funds. I am not saying this is true, but watching and remembering old interviews, even though he said they won't be making a bigger launch vehicle in the fore-seeable future... But always said more is coming. Like a PR stunt to launch a product... It is a good stunt having every one think only small satellites... then bang and 8ton to LEO or 2 tons t the moon... 1.5 tons to Mars or Venus... that is is good PR.
But I would like to also point out markets change and they can change very fast and you have to move with the markets or get left behind.
The Electron is currently going through tests for reusability. They have announced the Neutron rocket the Electron's bigger brother and that it is human space flight capable. To be fair capable doesn't mean that they will just means it will be capable if needed or the right circumstances arise.
Some of the best quotes I saw on the Youtube video comments;
- "At rocket lab, when we say we're never going to do something, we still do it"
- "Well, that escalated quickly…"
According to the Rocketlab website they will be launching from 2024 only three years after announcing it. Which tells me they have been working on this in the background for a while.
- HEIGHT40 m / 131 ft
- FAIRING DIAMETER4.5 m
- PAYLOAD TO LEO8,000 kg
- PAYLOAD TO VENUS1500 kg
- PROPELLANTLOX / Kerosene
Some Stats of RocketLab
The New Zealand-based firm Rocket Lab says it is developing a rocket designed to launch satellites into so-called mega constellations, beginning in 2024 – with human launches also planned at a later date.
Today, Monday, 1 March, the company revealed its “Neutron” rocket, a medium-class launch vehicle that can lift up to 8,000 kilograms (eight tonnes) into orbit, comparable to Russia’s Soyuz rocket.
The two-stage vehicle will be 40 meters (131 feet) tall, more than double the company’s existing Electron rocket, which measures 18 meters (60 feet) tall and has so far flown 97 satellites across 18 launches.
Peter Beck, the company’s CEO, says this will make the rocket particularly suited to launch multiple satellites into constellations, expected to dominate the launch market in the coming years.
“It’s blatantly obvious that an alternative is needed to launch all the mega constellations that are planned in the next decade,” says Beck.
“So there’s a real gap in the market for a vehicle that is purpose-built and the right size for just delivering these.”
Mega constellations are large groups of satellites designed for a number of purposes in orbit, such as space internet.
The most notable is SpaceX’s Starlink constellation, a planned group of up to 42,000 satellites designed to beam the internet to Earth from space.
However, while SpaceX launches its satellites on its own Falcon 9 rocket in batches of 60, other companies also have plans for their own constellations.
“Take the Telesat constellation, it’s 700 kilograms per satellite, 20 orbital planes, and 11 satellites per plane,” says Beck. “It’s eight tonnes per plane, basically.”
Yet these constellations are controversial, both vastly increasing the amount of satellites and debris in orbit, and also causing problems for astronomy by altering the natural beauty of the night sky.
A rocket purpose-built for such constellations might therefore be cause for concern for some people, and Beck says they would encourage sustainable use of Earth orbit as much as possible.
“We are very strong supporters of global regulation and global discussion on what we need to do here,” he says.
With its Electron and Neutron vehicles, Rocket Lab says it will be able to launch 98 percent of all types of satellites set to launch by 2029, barring only the largest satellites.
Neutron will use the same fuel as Electron, a mix of liquid oxygen and kerosene, but will use an as-yet unnamed successor to Electron’s Rutherford engines.
What’s more, however, while Electron is designed only for satellite launches, Beck says Neutron will be designed with a much more precious cargo ultimately in mind – humans.
“When you develop a vehicle of this class, it would be remiss not to have that in your plate,” says Beck.
“Making it human certifiable from day one is the prudent thing to do.”
The company has not yet started working on the spacecraft that might sit on top of the rocket, nor has it said how many people could launch per mission.
But possible destinations might include the International Space Station (ISS), or perhaps private space stations placed in orbit.
“We don’t know how the industry’s going to play out,” says Beck. “There’s great potential and huge opportunities.”
A target date for the company’s first planned human spaceflight launch has not yet been announced.
Rocket Lab, which also announced it would be merging with a special-purpose acquisition company (SPAC), also revealed plans to make Neutron reusable.
The rocket will be designed to land on an ocean platform, similar to SpaceX’s Falcon 9 rockets.
The company has begun to make its Electron rockets reusable, but uses a parachute to return them, with a helicopter then intended to grab them mid-air.
Neutron, instead, will use its own engines to come back in for a landing.
“It will be a propulsive landing,” says Beck, but notes some people “might be pleasantly surprised by our unique approach,” without going into further detail.
The company has yet to announce a cost for a launch of Neutron (Electron launches are priced at $7 million).
But the aim is to offer an attractive alternative to larger rockets like SpaceX’s Falcon 9.
Rocket Lab initially plans to launch Neutron in 2024 from a launch pad at NASA’s Wallops Flight Facility in Virginia, rather than its New Zealand-based launch site where all Electron launches so far have taken place from.
Future launches could take place from other launch sites outside Virginia though, says Beck.
Aside from mega constellation satellites and human launches, the company says Neutron could be used for a lot of other purposes too, including perhaps interplanetary missions to the Moon, Mars, and Venus.
Neutron has a lifting capacity of 2,000 kilograms to the Moon and 1,500 kilograms to Mars and Venus.
“We’ve got a mission to the Moon for NASA launching later this year on Electron, we have missions to Mars, and of course our own private mission to Venus,” says Beck.
“Interplanetary science is an area we feel very strongly about.”
And Beck isn’t ruling out the possibilities of perhaps an even larger vehicle in future beyond Neutron – having agreed to eat a hat on camera after once saying Rocket Lab would never build a vehicle larger than Electron.
“I’m never going to say we’re not going to build a bigger rocket again,” Beck says, noting the hat tasted “bloody terrible.”
- GEO - Geostationary orbit (direct injection)
- GTO - Geostationary Transfer Orbit
- HEO - High Earth Orbit
- HCO - Heliocentric Orbit
- LEO - Low Earth Orbit
- MEO, Medium Earth Orbit
- Polar - Polar Orbit
- TLI - Trans-Lunar Injection
- TMI - Trans-Mars Injection
- SSO or SSPO - Near-Polar Sun-Synchronous Orbit