Bold They Rise: The Space Shuttle Early Years, 1972-1986 (Outward Odyssey: A People's History of S) (33 page)

BOOK: Bold They Rise: The Space Shuttle Early Years, 1972-1986 (Outward Odyssey: A People's History of S)
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Ride’s return to space received much less attention than her first flight, even though the crew included two female astronauts and a female
NASA
astronaut, Kathy Sullivan, conducted an
EVA
for the first time. “It certainly didn’t have the media attention that
STS
-7 did,” commented Crippen.

Judy Resnik had also flown prior to that time, so we’d had a couple of women go fly. So I think the media is easily bored if it’s not something that’s brand-new. The new thing on this was there was going to be a woman do a spacewalk. What was unusual is, as soon as we named her to do it, the Russians put up a woman and had her do a spacewalk just so she could beat Kathy Sullivan, who was going to do ours. But, in recollection, I don’t recall having to deal with anything like what we had seen on
STS
-7 or
STS
-1.

Leestma, who hadn’t experienced anything like those two historic flights for comparison, had a different perspective:

The media made obviously a very big deal about that. Sally, being the very first American woman to fly; Kathy, now, on this flight, is going to become the first American woman to do an
EVA
. Two women at one time, how is this going to work? They played it down very well. Both of them were very, very good about it. It was just, “Hey, we’re just part of the crew.” And Jon and I could easily just stand in the background and just be one of the crew. It actually took a lot of the spotlight off of us, which was fine. Since Crip wasn’t there most of the time, it was mostly Sally and Kathy being the spokespeople for the crew, which was perfectly okay. [Before launch], Jon McBride and I went off and sat inside and had a Coke and a candy bar and watched Sally, Kathy, and Crip all get interviewed all day long. And we were happy as clams about it; we thought this was great.

Author Henry S. F. Cooper Jr. wrote in
Before Lift-Off
that 41
G
had “more anomalies, glitches, nits, and malfs [malfunctions] than almost any previous mission. It was reminiscent of a long film.” One of those was when a Soviet laser-testing station targeted
Challenger
with a low-power laser that temporarily blinded the crew and caused equipment not to function properly. The incident was alleged to be a “warning shot” in response to the United States’ planned Strategic Defense Initiative space-based missile shield and military use of the shuttle and was met by U.S. diplomatic protests.

Other problems, involving no international drama, were still challenges to resolve. Under normal circumstances, said robotic-arm-operator Ride, the Shuttle Imaging Radar (
SIR
-
B
) would not have involved the robotic arm.
SIR
-
B
was a radar antenna in the payload bay that was unfurled to make Earth observations. It was then folded and stored for the return to Earth. “Because it was a radar, and because it took up a lot of the payload bay, before Kathy and Dave could go out on their spacewalk, we had to fold it back up again,” said Ride.

But we had trouble folding it. We couldn’t get it to come down all the way to latch. So we had to use the robot arm in a way that it hadn’t been intended to be used. We set the arm down on top of one of the leaves of the antenna and pushed down on it, trying to push it down far enough that a latch could grab it and latch it down. If we hadn’t been able to do that, the spacewalk might have been cancelled. But it worked quite well. It was pretty easy to push the
top piece of the antenna down just far enough to get it to latch. The problem was solved relatively quickly and to everyone’s satisfaction, especially Kathy and Dave’s. They were afraid they weren’t going to get to go out on their spacewalk.

Innovative use of the arm saved the day on another occasion during the mission, too. On the first day in orbit, the mission was to deploy the Earth Radiation Budget Satellite (
ERBS
).
ERBS
was designed to investigate how energy from the sun is absorbed and reradiated by Earth. It was to be deployed by the
RMS
. Ride was to be the primary arm operator and Leestma trained as backup. “We trained a lot together, spent a lot of time in the simulators and going to Canada and doing those kind of things,” said Leestma. “It becomes a little bit of a contest of who can do this quicker or better. All those competitive games were played in everything you do.”

When it came time to deploy the satellite, Ride let Leestma pull out the arm, do the checkout, and grapple the satellite. She then took over to pull the satellite out of the payload bay, set it up for deployment, and deploy it. Leestma would then stow the arm.

But during deployment, only one of the satellite’s two solar arrays would open. “The first solar array went up and we go, ‘Okay, we’re ready.’ And the ground says, ‘Okay. Deploy the second one.’ We hit the command and nothing happens. Uh-oh. So what do we do? So we wait, and the ground says, ‘Well, do the backup command.’ So we do the backup, or do it again, whatever it was, and nothing happens and it’s just locked in the side. And we’re going, ‘Oh, no. Now what do we do?,’” Leestma said.

Mission Control told the astronauts to point the satellite toward the sun to see if maybe it was frozen in place, but when they did that nothing happened. The shuttle was about to fly over a dead zone, where they would have approximately twenty minutes of loss of signal with the ground, and the astronauts were plotting how to take advantage of that time. “This was a flight back before we had all the
TDRS
coverage,” Leestma explained, “so we went through long periods of time where we didn’t have to talk to the ground or they couldn’t see data. We were getting ready to come up over Australia and go through the Canberra site and talk to the ground, and then we would have about a fifteen- to twenty-minute period before we’d talk to anybody, before we’d come up over the States.”

Leestma said he and Ride looked at each other and had the same idea: shake it loose.

We said, “Crip, do you mind if we try to shake this thing loose?” And he said, “Go for it. Just don’t break it.” We go, “Okay. We’re not going to break it.” So Sally took the arm and goes to the left as fast as she can and stops it and goes back the other way. The rates in the arm are really slow, but it’s putting some kind of force into it. She did this once and nothing happened. We did it, I think, twice, and the second time, I went, “Something’s moving.” So she puts it up to the deployment position and we’re watching it, and it slowly moved a little bit, stopped, moved a little bit, stopped, and then it deployed. I went, “Whew!”

Ride quickly positioned the satellite for deployment just as the shuttle came up over the States and back in contact with Mission Control, Leestma explained. “The ground said, ‘Okay, we’re with you.’ And then we said, ‘Well, take a look at the satellite. See if we’re ready to go.’ I don’t remember the exact quote, but they came back up and they go, ‘What did you guys do?’ And we said, ‘We aren’t going to tell you, but just check it out, make sure that it’s ready to deploy.’ And they said, ‘Everything looks good.’ And so we made our deploy time and the satellite worked.”

ERBS
is one of the longest-running spacecraft missions. It was expected to have a two-year operational life, but the mission provided scientific data about Earth’s ozone layer until 2005, more than two decades after deployment. Leestma recalled that improvised decision during the loss of signal as one of the more memorable moments of his spaceflight career.

It’s one of those things that you just kind of go, “Whew!” I don’t think we ever would have gotten permission to do what we did, except that we just decided to go do it. It was fun. That was an exciting time. And both of us looked at each other and we got these kind of sneaky grins on our faces as we’re looking, going, “They would never let us do this, but let’s go try it.” And Crip let us do it, so that was pretty neat, too. We had a neat crew. The crew was really a lot of fun, because we really melded and meshed well together.

Crippen recalled another highlight of the mission, an experiment to test the shuttle’s capability to refuel satellites in orbit, thus extending their lifespan. The test focused on hypergolic fuels, which are dangerous in multiple ways—volatile and toxic. Before the mission, discussions were held as to whether it would be better to perform the test with actual hypergolic fuels or with water, which would simulate many of the properties of the hyper
golics without the danger. The plan was to conduct the experiment during an
EVA
and have Leestma and Sullivan move the hoses, connect them, and transfer the fluid from one tank to another to see if it was feasible.

The commander, Crippen, was very much in the camp of preferring to err on the side of safety, noting that even a relatively minor problem, such as a leak in the payload bay resulting in hydrazine getting on a spacesuit, would mean the crew member could not come back into the cockpit.

Leestma, on the other hand, was one of the people making the argument that the test should be done with hydrazine instead of water. “Hydrazine is very much like water, but it’s got a lot of different properties, one of which is that it blows up if it’s not handled right. Crip and the safety folks were very, very concerned that we shouldn’t do this with hydrazine. We should just do it with water. The heat transfer properties of water and hydrazine are very, very similar, and that’s what we really wanted to know.”

But while Leestma agreed that using water would provide a great deal of the desired data, he also felt that using water wouldn’t really prove that they could do the transfer with hydrazine. In his opinion, the only way to prove you can refuel with hydrazine in space was to actually do it.

Crippen sent Leestma to White Sands Test Facility to learn all he could about the properties of hydrazine and the benefits and risks of doing the test with fuel or water. Leestma spent ten days at White Sands and came back to Crippen with his report. “I came back from there with a real appreciation for the capabilities of this deadly stuff,” he said.

Not only does it blow up, but it’s really nasty stuff. You can’t breathe it. If you get it on your skin, you can get poisoned. So there were lots of concerns that if we do hydrazine, but if it sprung a leak and even got on our spacesuits, how are we going to get back in the airlock? We don’t want to bring this stuff back in. We spent lots of time on how much bake-out time we’d have to do, how to get it off our suits. If you get in the sun, can you bake it out so that you don’t bring it in the airlock? And then if we do come back in the airlock, how can you test whether you brought any in with you? How do you get rid of it?

However, despite all those concerns, Leestma still believed the right course of action was to test in orbit using the actual fuels, making sure to establish and use effective safety protocols. Leestma reported all the way up to Aaron Cohen,
JSC
director of engineering, briefing everyone on why the
mission should use hydrazine and not water. Cohen signed off on it, and Crippen finally did too. “Crip probably had the final say-so on that, and he agreed to have us do it with hydrazine, because he had watched me several times in the neutral buoyancy facility to do the whole procedure, and how careful we were, and we had triple containment of the liquids at all times.”

When it came time to do the
EVA
, Leestma described feeling like he was on top of the world.

Going out the hatch and getting your entire faceplate filled with this Earth—which is just a spectacular sight—it’s emotional and spiritual. The Earth is an incredible creation. Your heart rate goes up and you’re going, “I cannot believe I’m doing this.” You’re going almost eighteen thousand miles an hour and you’re weightless. You’ve got this four-hundred-pound suit on, and yet you can move yourself with just a finger. Your faceplate is filled with all these clouds and ocean and ground and greens. It brings tears to your eyes. I actually had tears going on. And you don’t want to have tears in your eyes, because you can’t do anything about it inside the faceplate. So you’ve got all these things going on. “What’s going on here? Calm down, Dave. You’ve got a job to do.” But it’s a very emotional rush.

Then it was Sullivan’s turn to exit the airlock as the first woman to do a spacewalk.

Kathy comes out, and you know what’s going through her. You don’t really communicate that. And then she’s doing something that is historic. Man, you just go, “Wow! Why do I get to do this?” So then you go, “Well, okay. As long as it’s me, that’s great. Let’s press on.” It’s an emotional thing. And then you’re going, at that same time, in the back of your mind, which is always the thought that astronauts have right from the time of launch, is, “Don’t screw this up.” Make sure you do it by the book and you’re very careful and very meticulous, and you’re going, “Oh, don’t screw this up.”
I felt like it was five minutes, and then Crip or Jerry Ross, the CapCom, said, “Dave, it’s time to get back in the hatch and wash your hands for supper,” or something like that. It didn’t last as long as you’d want to.

After weather had shifted his last two landings away from Kennedy Space Center, Crippen, on his fourth mission, finally got the chance to land in Florida. As the orbiter was coming in lower and lower and slowing down
as it came, Crippen said he started to notice just how fast the aircraft was flying, something he said he didn’t notice as much while on orbit.

I’m not really sure why that is, but it seems like you’re going faster, when actually you really are slowing down. I can remember I could see Jacksonville, Florida, when we were over probably in Kansas-Missouri area. I could see the whole peninsula of Florida, and shortly after I picked up Jacksonville, I could see the Cape, because it’s very pronounced where it sticks out there where the Kennedy Space Center is. Then there’s the shuttle landing facility. Visually I think I picked up everything necessary to fly an entry much earlier than I did while we were coming in to California. Even though we were flying on the autopilot and doing very well, if there had been something wrong with the navigation, I felt like I had the capability to fly it on in and land.

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