A Helicopter Will Try to Catch a Rocket Booster in Midair

The longest journey begins with a single step, and that step gets expensive when you're in the space business. Take, for example, the Electron booster made by Rocket Lab, a company with two launch pads on the New Zealand coast and another awaiting use in Virginia. Earth's gravity is so stubborn that, by necessity, two-thirds of the rocket is its first stage-and it has historically ended up as trash on the ocean floor after less than 3 minutes of flight.

Making those boosters reusable-saving them from a saltwater grave, and therefore saving a lot of money-has been a goal of aerospace engineers since the early space age. Elon Musk's SpaceX has famously been landing its Falcon 9 boosters on drone ships off the Florida coast-mind-bending to watch but very hard to pull off.

Rocket Lab says it has another way. If all goes well, its next flight, currently targeted for 22 April, will carry 34 commercial satellites-and instead of being dropped in the Pacific, the spent first stage will be snared in midair by a helicopter as it descends by parachute. The helicopter will then fly it back to base, seared by the heat of reentry but inwardly intact, for possible refurbishment and reuse.

It's a very complex thing to do," says Morgan Bailey of Rocket Lab. You have to position the helicopter in exactly the right spot, you have to know exactly where the stage is going to be coming down, you have to be able to slow it enough," she says. We've practiced and practiced all of the individual puzzle pieces, and now it's putting them together. It's not a foregone conclusion that the first capture attempt will be a success."

Still, people in the space business will be watching, since Rocket Lab has established a niche for itself as a viable space company. This will be its 26th Electron launch. The company says it has launched 112 satellites so far, many of them so-called smallsats that are relatively inexpensive to fly. Right now, there are two companies taking payloads to orbit: SpaceX and Rocket Lab," says Chad Anderson, CEO of Space Capital, a firm that funds space startups.

It\u2019s time\u2026\u2026.Launch - Catch - Launchhttps://twitter.com/RocketLab/status/1511314645138567169\u00a0\u2026 - Peter Beck (@Peter Beck) 1649164380

Here's the flight profile. The Electron is 18 meters tall; the bottom 12 meters are the first stage. For this mission it will lift off from New Zealand on its way to a sun-synchronous orbit 520 kilometers high. The first stage burns out after the first 70 km. Two minutes and 32 seconds into the flight, it drops off, following a long arc that in the past would have sent it crashing into the ocean, about 280 km downrange.

But Rocket Lab has now equipped its booster with heat shielding, protecting it as it falls tail-first at up to 8,300 kilometers per hour. Temperatures should reach 2,400 C as the booster is slowed by the air around it.

At an altitude of 13 km, a small drogue parachute is deployed from the top end of the rocket stage, followed by a main chute at about 6 km, less than a minute later. The parachute slows the rocket substantially, so that it is soon descending at only about 36 km/h.

An artist's conception shows the helicopter after catching the spent Electron rocket's first stage in midair.Rocket Lab

But even that would make for a hard splashdown-which is why a Sikorsky S-92 helicopter hovers over the landing zone, trailing a grappling hook on a long cable. The plan is for the helicopter to fly over the descending rocket and snag the parachute cables. The rocket never gets wet; the chopper secures it and carries it back to the launch site. Meanwhile-let's not lose sight of the prime mission-the second stage of the rocket should reach orbit about 10 minutes after launch.

You have to keep the booster out of the water," says Anderson. If they can do that, it's a big deal." Many space people will recall NASA's solid rocket boosters, which helped launch the space shuttles and then parachuted into the Atlantic; towing them back to port and cleaning them up for reuse was slow and expensive. NASA's giant SLS rocket uses the same boosters, but there are no plans to recover them.

So midair recovery is far better, though it's not new. As long ago as 1960, the U.S. Air Force snagged a returning capsule from a mission called Discoverer 14. But that had nothing to do with economy; the Discoverers were actually Corona reconnaissance satellites, and they were sending back film of the Soviet Union-priceless for Cold War intelligence.

Rocket Lab tries to sound more playful about its missions: It gives them names like A Data With Destiny" or Without Mission a Beat." This newest flight, with its booster-recovery attempt, is called There and Back Again."

A teenager tweeted to CEO Peter Beck: It would have been cool if the mission was called Catch Me If You Can.'"

Oh...that's good!" Beck replied. Congratulations, you have just named the very next recovery mission."