When Wilbur and Orville Wright successfully flew the first controllable aircraft in Kitty Hawk, North Carolina, the 12-second flight was achieved using wing warping, a system of movable, external control surfaces that nearly every aircraft has used for flight control since. The CRANE project from DARPA and Aurora Flight Sciences could change everything we know about modern flight.
The Defense Advanced Research Projects Agency (DARPA) recently selected Aurora for phase three of the Control of Revolutionary Aircraft with Novel Effectors (CRANE) program. During phase three, Aurora will build the X-65, a full-scale X-plane, to demonstrate the viability of using active flow control (AFC) actuators for primary flight control.
AFC could one day replace the flaps and rudders used to maneuver most aircraft. The hope is that AFC will improve aerodynamics while reducing weight and mechanical complexity by supplying 14 effectors on several surfaces with pressurized air to control the plane's roll, pitch, and yaw.
The X-65 will have both sets of control actuators, traditional flaps and rudders as well as AFC effectors. The flaps and rudders will minimize risk and serve as a baseline against the craft's performance using AFC effectors.
Component tooling and part fabrication have already started at the Boeing subsidiary's West Virginia and Mississippi locations. The airframe will be built at Aurora West Virginia, followed by system integration and ground testing at the company's headquarters in Manassas, Virginia.
The X-65 will weigh more than 7,000 pounds, have a 30-foot wingspan, and reach speeds up to Mach 0.7.
The aircraft should be completed in early 2025, with flight tests planned for that summer at tactically relevant scale and flight conditions for both commercial and military applications.
China and India scored moon landings, while Russia, Japan, and Israel ended up in the lunar trash heap.
Now two private companies are hustling to get the U.S. back in the game, more than five decades after the Apollo program ended.
It’s part of a NASA-supported effort to kick-start commercial moon deliveries, as the space agency focuses on getting astronauts back there.
“They’re scouts going to the moon ahead of us,” said NASA Administrator Bill Nelson.
Pittsburgh’s Astrobotic Technology is up first with a planned liftoff of a lander Monday aboard a brand new rocket, United Launch Alliance’s Vulcan. Houston’s Intuitive Machines aims to launch a lander in mid-February, hopping a flight with SpaceX.
Then there’s Japan, which will attempt to land in two weeks. The Japanese Space Agency’s lander with two toy-size rovers had a big head start, sharing a September launch with an X-ray telescope that stayed behind in orbit around Earth.
If successful, Japan will become the fifth country to pull off a lunar landing. Russia and the U.S. did it repeatedly in the 1960s and 70s. China has landed three times in the past decade — including on the moon’s far side — and is returning to the far side later this year to bring back lunar samples. And just last summer, India did it. Only the U.S. has put astronauts on the moon.
Landing without wrecking is no easy feat. There’s hardly any atmosphere to slow spacecraft, and parachutes obviously won’t work. That means a lander must descend using thrusters while navigating past treacherous cliffs and craters.
A Japanese millionaire’s company, ispace, saw its lander smash into the moon last April, followed by Russia’s crash landing in August. India triumphed a few days later near the south polar region; it was the country’s second try after crashing in 2019. An Israeli nonprofit also slammed into the moon in 2019.
The United States has not attempted a moon landing since Apollo 17’s Gene Cernan and Harrison Schmitt, the last of 12 moonwalkers, explored the gray, dusty surface in December 1972. Mars beckoned and the moon receded in NASA’s rearview mirror, as the space race between the U.S. and the Soviet Union came to a close. The U.S. followed with a handful or two of lunar satellites, but no controlled landers — until now.
Not only are Astrobotic and Intuitive Machines looking to end America’s moon-landing drought, but they’re also vying for bragging rights as the first private entity to land — gently — on the moon.
Despite its later start, Intuitive Machines has a faster, more direct shot and should land within a week of liftoff. It will take Astrobotic two weeks just to get to the moon and another month in lunar orbit, before a landing is attempted on Feb. 23.
If there are rocket delays, which already have stalled both missions, either company could wind up there first.
“It’s going to be a wild, wild ride,” promised Astrobotic’s chief executive John Thornton.
His counterpart at Intuitive Machines, Steve Altemus, said the space race is “more about the geopolitics, where China is going, where the rest of the world’s going.” That said, “We sure would like to be first.”
The two companies have been nose to nose since receiving nearly $80 million each in 2019 under a NASA program to develop lunar delivery services. Fourteen companies are now under contract by NASA.
Astrobotic’s four-legged, 6-foot-tall (1.9-meter-tall) lander, named Peregrine after the fastest bird, a falcon, will carry 20 research packages to the moon for seven countries, including five for NASA and a shoebox-sized rover for Carnegie Mellon University. Peregrine will aim for the mid-latitudes Sinus Viscositatis, or Bay of Stickiness, named after the long-ago silica magma that formed the nearby Gruithuisen Domes.
Intuitive Machines’ six-legged, 14-foot-tall (4-meter-tall) lander, Nova-C, will target the moon’s south polar region, also carrying five experiments for NASA that will last about two weeks. The company is targeting 80 degrees south latitude for touchdown. That would be well within Antarctica on Earth, Altemus noted, and 10 degrees closer to the pole than India landed last summer.
Scientists believe the South Pole’s permanently shadowed craters hold billions of pounds (kilograms) of frozen water that could be used for drinking and making rocket fuel. That’s why the first moonwalkers in NASA’s Artemis program — named after Apollo’s twin sister in Greek mythology — will land there. NASA still has 2025 on the books for that launch, but the General Accountability Office suspects it will be closer to 2027.
Astrobotic will head to the south pole on its second flight, carrying NASA’s water-seeking Viper rover. And Intuitive Machines will return there on its second mission, delivering an ice drill for NASA.
Landing near the moon’s south pole is particularly dicey.
“It’s so rocky and craggy and full of craters at the south pole and mountainous, that it’s very difficult to find a lighted region to touch down safely,” Altemus said. “So you’ve got to be able to finesse that and just set it down right in the right spot.”
While Houston has long been associated with space, Pittsburgh is a newcomer. To commemorate the Steel City, Astrobotic’s lander will carry a Kennywood amusement park token, the winner of a public vote that beat out the Steelers’ Terrible Towel waved at football games, dirt from Moon Township’s Moon Park, and a Heinz pickle pin.
The lander is also carrying the ashes or DNA from 70 people, including “Star Trek” creator Gene Roddenberry and science fiction writer Arthur C. Clarke. Another 265 people will be represented on the rocket’s upper stage, which will circle the sun once separated from the lander. They include three original “Star Trek” cast members, as well as strands of hair from three U.S. presidents: George Washington, Dwight D. Eisenhower, and John F. Kennedy.