With only a test dummy aboard, Boeing’s astronaut capsule pulled up and parked at the International Space Station for the first time Friday, a huge achievement for the company after years of false starts.
With Starliner’s arrival, NASA finally realizes its longtime effort to have crew capsules from competing U.S. companies flying to the space station.
SpaceX already has a running start. Elon Musk’s company pulled off the same test three years ago and has since launched 18 astronauts to the space station, as well as tourists.
“Today marks a great milestone,” NASA astronaut Bob Hines radioed from the orbiting complex. “Starliner is looking beautiful on the front of the station,” he added.
The only other time Boeing’s Starliner flew in space, it never got anywhere near the station, ending up in the wrong orbit.
This time, the overhauled spacecraft made it to the right spot following Thursday’s launch and docked at the station 25 hours later. The automated rendezvous went off without a major hitch, despite the failure of a handful of thrusters.
If the rest of Starliner’s mission goes well, Boeing could be ready to launch its first crew by the end of this year. The astronauts likely to serve on the first Starliner crew joined Boeing and NASA flight controllers in Houston as the action unfolded nearly 270 miles (435 kilometers) up.
NASA wants redundancy when it comes to the Florida-based astronaut taxi service. Administrator Bill Nelson said Boeing’s long road with Starliner underscores the importance of having two types of crew capsules. U.S. astronauts were stuck riding Russian rockets once the shuttle program ended, until SpaceX’s first crew flight in 2020.
Boeing’s first Starliner test flight in 2019 was plagued by software errors that cut the mission short and could have doomed the spacecraft. Those were corrected, but when the new capsule awaited liftoff last summer, corroded valves halted the countdown. More repairs followed, as Boeing chalked up nearly $600 million in do-over costs.
Before letting Starliner get close to the space station Friday, Boeing ground controllers practiced maneuvering the capsule and tested its robotic vision system. Everything checked out well, Boeing said, except for a cooling loop and four failed thrusters. The capsule held a steady temperature, however, and had plenty of other thrusters for steering.
Once Starliner was within 10 miles (15 kilometers) of the space station, Boeing flight controllers in Houston could see the space station through the capsule’s cameras. “We’re waving. Can you see us?” joked Hines.
There was only silence from Starliner. The commander’s seat was occupied once again by the mannequin dubbed Rosie the Rocketeer, a space-age version of World War II’s Rosie the Riveter.
The gleaming white-with-blue-trim capsule hovered 33 feet (10 meters) from the station for close to two hours—considerably longer than planned—as flight controllers adjusted its docking ring and ensured everything else was in order. When the green light finally came, Starliner closed the gap in four minutes, eliciting cheers in Boeing’s control center. Applause erupted once the latches were tightly secured.
“These last 48 hours have just been a barnstorm, so it’s going to be very good to sleep tonight,” said Mark Nappi, vice president and director of Boeing’s commercial crew program.
It was a double celebration for NASA’s commercial crew program director Steve Stich, who turned 57 Friday. “What an incredible birthday it was,” he told reporters.
The space station‘s seven astronauts will unload groceries and gear from Starliner and pack it up with experiments. Unlike SpaceX’s Dragon capsule that splashes down off the Florida coast, Starliner will aim for a landing in New Mexico next Wednesday.
© 2022 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed without permission.
Boeing docks crew capsule to space station in test do-over (2022, May 21)
retrieved 21 May 2022
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.