My Daily Kona: NASA

Showing posts with label NASA. Show all posts

Friday, August 11, 2023

Voyage to resume communication with Earth

My Inner Geek is "Squeeeing" on this one, The fact that something that was made in the 70's is still working using far less computing power than the smart watch that the average person is using says something about the durability of the technology and the smarts of the people running NASA back then.

Then I keep thinking of the leadoff for the premise of "Star Trek "The Motion Picture""

NASA Voyager

An artist concept depicting one of NASA's twin Voyager spacecraft.

Credit: NASA/JPL-Caltech

NASA’s Voyager 2, approaching the 46th anniversary of its launch to the outer Solar System, is once again transmitting and receiving data following a July 21 loss of communications due to an inadvertent command that prompted the probe to point its antenna away from Earth.

The resumption of communications through NASA’s Deep Space Network (DSN) follows a “shout” command transmitted by the agency’s Jet Propulsion Laboratory 37 hr. before the science and data flow back to Earth was officially confirmed on Aug. 4 at 12:29 a.m. EDT, according to updates from the mission team.

Voyager 2 launched on Aug. 20, 1977, and its companion Voyager 1 launched Sept. 5, 1977, on missions to explore Jupiter and Saturn and their moons. With their primary missions complete, they now explore beyond the Solar System on different trajectories, with Voyager 2 now more than 12.3 billion mi. (19.9 billion km) from Earth and Voyager 1 almost 15 billion mi.

The Voyager 2 “shout” signal that triggered the restoration of communications followed an Aug. 1 report from the mission team that it was able to detect a “carrier” signal from the probe after the July 21 communications loss. The signal, however, was too faint for the extraction of data.

Up until the success of the “shout,” it appeared that communications between Voyager 2 might not be restored until an Oct. 15 reset. Voyager 2 is programmed to execute periodic resets to correct its orientation and align its antenna with the Earth and the DSN ground stations at Goldstone in California, Madrid, Spain, and Canberra, Australia.

Wednesday, August 5, 2020

When NASA Flew the TU-144

I remember the TU-144 especially when I was a kid, the nickname was "Concordski". The Soviets were in such a rush to get their plane in front of the Concorde for bragging rights, they rushed development and got the plane out a few months earlier at the cost of systems and safety but to the Soviets such things didn't matter as long they could brag that they beat the west. It was the nature of the propaganda wars of the 60's and 70's as they tried to sway 3rd party proxy supporters for their cause. The TU-144 was beset with a myriad of system problem and frame issues and Aeroflot, the National airline didn't want the plane on their roster and the Soviet Military really didn't want the plane at all because of its reliability issues. The Soviets had first rate designers and scientist that could have fixed the planes problems but the political system wouldn't allow them to fix it in the name of national pride. It culminated in the Paris Air Show Crash where several theories abound but it was pretty much the death knell for the plane as far as commercial travel goes. the plane only flew 55 commercial flights mostly in the Soviet Union, the Politboro was nervous about the loss of life the plane might have on the prestige of the Soviet Union and they intentionally limited the flights and had a party member sigh off on all flights to minimize exposure.

TU-144 at the SinSheim Museum,in Germany I went there in 1988 and that museum even back then was really good and they have expanded their collection of stuff. It is first rate and a definite stop on my bucketlist when I go back there again. They have a Concorde parked out there also.

The Tupolev Tu-144 was a supersonic airliner that was first introduced by the Soviet Union in December 1968. However, in the 1990s, NASA worked with the plane’s manufacturers to develop a new variant of the jet – the Tu-144LL.

Tu-144 Plane — The Tupolev Tu-144LL taking off from the Zhukovsky Air Development Center near Moscow, Russia, 1998. Photo: NASA

It might be surprising to hear that a United States government agency worked on a Soviet-rooted aircraft. However, the end of the Cold War gave rise to an unprecedented opportunity for the two former long-term rivals to align in a joint aeronautical flight research program.

In 1993, US Vice President Gore and Russian Prime Minister Chernomyrdin chaired the United States-Russian Joint Commission on Economic and Technological Cooperation

According to NASA, at the time, the agency and commercial aviation industries across the US were focused on a High-Speed Research (HSR) program to further develop Supersonic Transport (SST) aircraft technologies. The plan was to place the US in a leading position to develop a next-generation supersonic plane

Tu-144 Jet — The Tu-144 was underwent conversion to a flying laboratory with four Kuznetsov NK-321 afterburning turbofan engines. Photo: NASA

Since 1990, the Tupolev Aircraft Design Bureau was suggesting that a Tu-144 could be used as a flying testbed in support of the HSR initiative. Subsequently, a team of senior NASA and aviation specialists across the country developed a series of flight experiments. Additionally, there we collaboration with a top team from Tupolev to understand the necessary modifications to perform those experiments.

Altogether, these tasks would inspire the Tu-144LL Supersonic Flying Laboratory. This project played an important part in the joint research program.

Over the span of two years, there were 27 research flights. There were 6,000 miles between the US and the plane’s base, so there were some challenges. However, workers overcame these struggles, and US pilots made three evaluation flights in September 1998.

The project was a great achievement overall. Nine experiments, including seven in the air and two on the ground, gathered crucial flight data. This information ramped up the US and Russian supersonic flight databases.

“Propulsion, aerodynamic, structural heating, structural acoustics, ground effects, and handling qualities data from the experiments were eagerly assimilated into the program’s information database,” NASA said on its website.

“In March 1998 the Joint Commission recognized the program as “A model for U.S. and Russian government-business partnerships in the development of advanced technologies.”

A year later, the HSR program underwent cancellation. 1999 was also the year that the TU-144 once again saw retirement. The conclusion was that it would not be economically viable to introduce a new SST aircraft. Two decades later, there is still a buzz about a new supersonic generation. We will have to wait and see how the industry pans out over the next few years.

Some more background,

In the early 1990s, a wealthy businesswoman, Judith DePaul, and her company IBP Aerospace negotiated an agreement with Tupolev, NASA, Rockwell and later Boeing. They offered a Tu-144 as a testbed for its High Speed Commercial Research program, intended to design a second-generation supersonic jetliner called the High Speed Civil Transport. In 1995, Tu-144D No. 77114 (with only 82.5 hours of flight time) was taken out of storage and after extensive modification at a cost of US$350 million, designated the Tu-144LL (where LL is a Russian abbreviation for Flying Laboratory, Russian: Letayushchaya Laboratoriya, Летающая Лаборатория). The aircraft made 27 flights in Russia during 1996 and 1997. Though regarded as a technical success, the project was cancelled for lack of funding in 1999.
This aircraft was reportedly sold in June 2001 for $11M via an on-line auction, but the aircraft sale did not proceed. Tejavia Systems, the company handling the transaction, reported in September 2003 that the deal was not signed as the replacement Kuznetsov NK-321 engines from a Tupolev Tu-160 bomber were military hardware and the Russian government would not allow them to be exported.
In 2003, after the retirement of Concorde, there was renewed interest from several wealthy individuals who wanted to use the Tu-144LL for a transatlantic record attempt, despite the high cost of a flight readiness overhaul even if military authorities would authorize the use of NK-321 engines outside Russian Federation airspace.
The last two aircraft remain in Gromov Flight Research Institute in Zhukovsky, Nos. 77114 (the Tu-144LL) and 77115. In March 2006, it was reported that both aircraft would be preserved with one erected on a pedestal near Zhukovsky City Council or above the Gromov Flight Research Institute entrance from Tupolev avenue.

Sunday, October 11, 2015

NASA Visit Part 2

This is a continuation of my NASA visit that I started back a week ago. We took a shuttle bus around the complex and saw a few neat things....like the assembly building

This was used to build the Apollo Saturn V rocket and then the Space shuttle. There was a Space X rocket inside getting ready for a launch to the ISS in orbit. While we were driving around, we also saw one of the crawlers used to move a rocket 1 mile an hour from the assembly building to the launch pad.

The crawler is controlled from two control cabs located at either end of the vehicle, and travels along the 5.6 km (3.5 mi) crawlerway at a maximum speed of 1.6 km/h (1 mph) loaded, or 3.2 km/h (2 mph) unloaded. The average trip time from the VAB along the Crawlerway to Launch Complex 39 is about five hours.Each crawlerway is 2 m (7 ft) deep and covered with Alabama and Tennessee river rock for its low friction properties to reduce the possibility of sparks. In 2000, NASA unearthed and restored an Apollo-era segment of the crawlerway to provide access to a high-bay building in order to provide protection from a hurricane.
Kennedy Space Center has been using the same two crawlers, nicknamed "Hans" and "Franz",since their initial delivery in 1965. In their lifetime, they have traveled more than 5,500 km (3,400 mi), about the same driving distance as from Miami to Seattle.

The crawlers were overhauled in 2003 with upgrades to the Motor Control Center, which houses the switchgear and electrical controls of all of major systems on board, a new engine and pump ventilation system and new diesel engine radiators, and replacement of the two driver cabs on each vehicle (one on each end). As of 2003, each crawler had 16 traction motors, powered by four 1,000 kW (1,341 hp) generators, in turn driven by two 2,050 kW (2,750 hp) V16 ALCO 251C diesel engines. Two 750 kW (1,006 hp) generators, driven by two 794 kW (1,065 hp) engines, were used for jacking, steering, lighting, and ventilating. Two 150 kW (201 hp) generators were also available to power the Mobile Launcher Platform. The crawler's tanks held 19,000 liters (5,000 U.S. gal) of diesel fuel, and it burned 296 liters per kilometer (125.7 U.S. gal/mi). Due to its age and the need to support the heavier Space Launch System and its launch tower, in mid-2012 one of the crawlers was undergoing an upgrade involving "new engines, new exhausts, new brakes, new hydraulics, new computers," to increase its lifting capacity from 5,400,000 to 8,200,000 kg (12,000,000 to 18,000,000 lb).

* The overall length and width of the Crawler is 131 by 113 feet.

* The Crawler burns a gallon of diesel every 42 feet, or gets about 0.008 mpg.

* The water pump is a 75hp electric motor, and the cooling system holds 500 gallons.

* The Crawler has six mufflers, the heaviest coming in at more than 3,000 pounds.

* Two eight-cylinder White-Superior 1,065hp motors are used just for electric and hydraulic power.

* For power, the Crawler uses two 2,750hp, 16-cylinder Alco diesel engines to power sixteen 375hp electric motors.

* Just the Crawler itself, without the Shuttle, is still three stories high.

* Each track (or shoe) on the Crawler weighs 2,200 pounds-and there are 456 of them.

* The Crawler's fuel tank will hold 5,000 gallons, giving it a range of about 40 miles.

* The Crawler is wide enough to take up an entire four-lane freeway-all lanes in both directions.

* The instruction manual on how to start and warm up the Crawler is 39 pages.

* Although there are up to 30 people monitoring various systems, the Crawler can actually be driven by just one person.

* There is a speedometer on the Crawler-from 0-2 mph.

* From the vertical assembly building to the launch platform is a little more than 4 miles. The Crawler can make it in about a day.

* The Crawler's drive system (think rear axle ratio) has a gear ratio of 168:1.

* The Crawler has to tilt the 12-million-pound shuttle and platform at up to 5 degrees to keep it perfectly level on the way to the platform.

* A Crawler can move the slightest distance (for example, only 1/8-inch) if it needs to.

* Both Crawlers, combined, have traveled thousands of miles since being built.

The bus also took us to the Saturn V building, where they had a Saturn V rocket laid down on a platform, kinda like we saw in Huntsville a few years ago.

We also saw the origional camper that they used for the Apollo Astronauts to the platform.

I also took another pic of the First Stage rocket...

We saw a lot of artifacts, including "Snoopy"

Snoopy was used as a mascot for the space program, he also was used to award people in NASA for doing exemplary things. Charles M Schultz was happy to have NASA use snoopy on the sole condition that "He" would draw him and nobody else. And with no royalties involved.
We also saw the Apollo 11 symbol,

They had all the Apollo Missions patches shown, My phone by this time was giving me the "Bong of Death". so I could only take a few more pictures.
They had set up the mission control room as it looked back in 1968, and it was real neat!

They played the launch sequence from 12:00 out until launch and they would light up the stations as the sequence played out for the launch.

And of course the media had access to the control room during the launch..

I enjoyed the visit immensely and would like to go back, the picture above was the last picture my phone took before it ran out of power. They had moon rock exhibits, a food court, slightly overpriced but it was what it was. My inner geek was very happy. I want to spend an entire day just in the Saturn building and really look at everything.

I really wanted this....would have fit in with my other Haynes Manuals

Sunday, October 4, 2015

My NASA trip...Part 1

I would have posted this earlier in the week but some stuff happened during the week and it got pushed off to the back burner. I mentioned that we had returned from a Disney Cruise...Nobody does it like Disney....sure there is a lot of kids on board, but there is stuff for the adults, and unlike other cruise lines, all of your cost is up front, you ain't nickel and dimed like some of the other cruise lines.

Well we got off the boat in Port Canaveral and what is next to the Port....Matter of fact we could see it from the port...

That is the huge assembly building used for the Apollo and shuttle missions..used to prep the ship for launch. More on that in a few.
Well we drove there, we had left the car parked at the Disney Terminal at the Port. We used my "Waze" app on my kinda smart phone and went right there. We got out and I being the camera person that I am...got a pic of the kid in front of the NASA emblem..

He looked totally thrilled.....He hates having his picture taken...so what do I do....take his picture...It is a Dad thing. We also saw the memorial monument to President John F Kennedy,

We also saw that is called "The Rocket Garden".

This pic of the Rocket Garden was snagged off "Google". My phone was being cantankerous and wouldn't function so I didn't take the picture like I wanted. Oh well, this will facilitate another trip down there later for the missed opportunities.
We walked around and headed to the "Atlantis exhibit", The first thing we saw walking up to it was the boosters.

All I can say is that they were huge. We were ushered into an auditorium that showed the video of the initial development of the shuttle back in 1971.

This video was a bit different than what was shown, but you will recognize some of the stuff from the video that I do have pictures of. After the video was over, we were released into the shuttle display area, the first thing we saw was the shuttle itself..

The actual shuttle itself, very impressive. I walked around and saw a lot of things and my inner geek was impressed.

I also took a picture of the space tiles that imitially caused problems for the shuttle, they had tiles dropping off on the shuttle and NASA had to work hard to find a solution to the shuttle tile dropping off...I remembered seeing pictures of the shuttle looking like she had mange from the tiles that would not stay on the ship.

They got the problem fixed....the tiles protected the shuttle during reentry so she wouldn't burn up like a meteor and the tiles worked...except when they were damaged in the case of the Columbia tragedy. I saw the interior of the shuttle and they had the docking arm deployed and it was a neat view.

I couldn't get a good view of the docking arm because of the way it was situated and I had people all over the place. Oh well...
Here was the inspiration for the shuttle from the Chief Mercury program engineer, he used it to show the next step of the program in 1971.

They also had the camper that they used to transport the astronauts to the launch station.

This was used to transport the astronauts to the launch platform, the astronauts used to carry their own cooling units and to help keep them cool, they would give them a ride in this camper.
I also saw the remembrance area for the astronauts that died in the shuttle disasters.

I saw memento's from all the astronauts, I was again amazed how many of them had ties to the Boy Scouts. The timeless value's that are taught humbled me and made me proud of being part of this organization. I also saw part of the Challenger's hull.

They also had part of the Columbia shuttle there.

It was sobering seeing all this stuff. I will post more on the 2nd part of my visit to NASA in a day or 2. I was walking around seeing this stuff and a part of me was saddened, This almost reminded me of our nation living in the past, that our best days are behind us and we are sliding into mediocrity. To me the space program represented America and that we grounded the shuttle fleet and now have to pay the Russians exorbitant amount of money to get our astronauts to the space station is appalling.
I did enjoy the visit immensely, my inner geek was pleased. I did miss on the opportunity to see Astronaut Carr from the Skylab missions,

This is from my collection of stuff in my man cave.

I remembered my blogging about Skylab back in 2012, and that I was angry that NASA didn't try to save her in the late 70's. I had written letters to NASA and to President Carter at the time, my 13 year old anger couldn't understand why they let her burn up. I will post in a day or 2 the second part of my visit to the Saturn V building....*WOW* and the journey around the complex.

Monday, December 17, 2012

NASA's Ebb and Flow will crash into the moon.

LOS ANGELES (AP) — Ebb and Flow chased each other around the moon for nearly a year, peering into the interior. With dwindling fuel supplies, the twin NASA spacecraft are ready for a dramatic finish.

On Monday, they will plunge — seconds apart — into a mountain near the moon's north pole. It's a carefully choreographed ending so that they don't end up crashing into the Apollo landing sites or any other place on the moon with special importance.

Skywatchers on Earth won't be able to view the double impacts since they will occur in the dark.
"We're not putting out an all-points bulletin to amateur astronomers to get their telescopes out," said mission chief scientist Maria Zuber of the Massachusetts Institute of Technology.

Earthlings may be shut out of the spectacle, but the Lunar Reconnaissance Orbiter circling the moon will pass over the crash site and attempt to photograph the skid marks left by the washing machine sized-spacecraft as they slam into the surface at 3,800 mph.

After rocketing off the launch pad in September 2011, Ebb and Flow took a roundabout journey to the moon, arriving over the New Year's holiday.

More than 100 missions have been flung to Earth's nearest neighbor since the dawn of the Space Age including NASA's six Apollo moon landings that put 12 astronauts on the surface.

The imminent demise of Ebb and Flow comes on the same month as the 40th launch anniversary of Apollo 17, the last manned mission to the moon.
Ebb and Flow focused exclusively on measuring the moon's lumpy gravity field in a bid to learn more about its interior and early history. After flying in formation for months, they produced the most detailed gravity maps of any body in the solar system.
Secrets long held by the moon are spilling out. Ebb and Flow discovered that the lunar crust is much thinner than scientists had imagined. And it was severely battered by asteroids and comets in the early years of the solar system — more than previously realized.

Data so far also appeared to quash the theory that Earth once had two moons that collided and melded into the one we see today.

Besides a scientific return, the mission allowed students to take their own pictures of craters and other lunar features as part of collaboration with a science education company founded by Sally Ride. Ride, the first American woman in space, died of pancreatic cancer in July at age 61.

Scientists expect to sift through data from the $487 million mission for years.

Obtaining precise gravity calculations required the twins to circle low over the moon, which consumes a lot of fuel. During the primary mission, they flew about 35 miles above the lunar surface. After getting bonus data-collecting time, they lowered their altitude to 14 miles above the surface.

With their fuel tanks almost on empty, NASA devised a controlled crash to avoid contacting any of the treasured sites on the moon.

The last time the space agency intentionally fired manmade objects at the moon was in 2009, but it was for the sake of science. The crash was a public relations dud — spectators barely saw a faint flash — but the experiment proved that the moon contained water

Wednesday, December 12, 2012

The Mayan Calender..? NASA releases "told you so" video

NASA released a "I told you so" video related to the Mayan calender stating that the world will end in December. They were planning on releasing it the day afterwards, but decided to release it early. NASA
decided to release it early to quell peoples fear about the coming holocaust and the end of the world as we know it.(See REM video at the end of the posting)

Dec. 21, 2012, has long been rumored to be the day of the Mayan apocalypse, when Earth comes to its inglorious end. The good folks at NASA want you to know that isn't going to happen.

In fact, NASA is so confident that it recently published a video that appears as if it were intended to be aired on Dec. 22. Titled "The World Didn't End Yesterday," the four-minute clip explains how the idea of the Mayan apocalypse was a huge hoax and how the rumors began. A commenter on YouTube jokes, "The correct title for this video: Told ya so!—Love, NASA."

Time magazine reports that the space agency has been besieged with questions from citizens worried that their lives are about to end. NASA is taking the fears seriously, not because there is any danger, but because irrational fears can sometimes lead to irrational and dangerous actions.

NASA's official site features an area dedicated to debunking the claims. "The world will not end in 2012," NASA writes. "Our planet has been getting along just fine for more than 4 billion years, and credible scientists worldwide know of no threat associated with 2012."

NASA experts go on to explain the origins of the hoax. "The story started with claims that Nibiru, a supposed planet discovered by the Sumerians, is headed toward Earth. This catastrophe was initially predicted for May 2003, but when nothing happened the doomsday date was moved forward to December 2012 and linked to the end of one of the cycles in the ancient Mayan calendar at the winter solstice in 2012—hence the predicted doomsday date of Dec. 21, 2012."

Nibiru, by the way, is not a real planet. If it were, NASA says the agency "would have been tracking it for at least the past decade, and it would be visible by now to the naked eye."

Translation: The world isn't going to end. You still have to finish your holiday shopping. You still have to come up with something fun to do on New Year's Eve. Sorry

Friday, January 27, 2012

Apollo 1, The fire that shocked NASA,

This article was from Scientific American, Today was the 45 Anniversary of the fire that killed the crew of Apollo 1. As an aviation junkie and space nut, this was a subject that in my younger years was hard to get information on. There was scads of information on Apollo 11, a lot of info on Apollo 13 (and a movie) but little was known about Apollo 1. Apollo 13 the movie with Tom Hanks did mention the crew and it was discussed a bit. This was the first real mention of the Apollo 1 fire.

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The Apollo 1 Command Module after the fire that claimed the lives of Gus Grissom, Ed White, and Roger Chaffee. Credit: NASA.

NASA s Apollo program began with one of the worst disasters the organization has ever faced. A routine prelaunch test turned fatal when a fire ripped through the spacecraft s crew cabin killing all three astronauts. Today marks the 45th anniversary of the Apollo 1 fire, a tragic and preventable accident. There were warning signs, similar accidents that had claimed lives both in the United States and abroad. The Apollo 1 crew could have been saved from a gruesome death.

Plugs Out

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L-R: Roger Chaffee, Ed White, and Gus Grissom training for their Apollo 1 flight. Credit: NASA.

The commander for Apollo 1 was Gus Grissom, one of the original Mercury astronauts whose first spaceflight was marred by his capsule s sinking after splashdown. He flew again in Gemini in a spacecraft he named Molly Brown. Senior pilot on the Apollo 1 crew was Ed White, a Gemini veteran who made America s first spacewalk in 1965. Rounding out the crew was pilot Roger Chaffee, a talented rookie more than capable of holding his own with his experienced crew mates. He was a notoriously good guy who took pains to thank everyone for their contributions to Apollo right down to the janitors.

By the end of January 1967, the crew was going through their final prelaunch tests; barring some major setback, they would make the first manned Apollo flight on February 21. One routine test NASA had done since Mercury was the plugs out test, a final check of the spacecraft s systems.

Apollo_One_CM_arrival_KSC

The spacecraft - Command Module 12 - arrives at the Kennedy Spaceflight Centre clearly destined for Apollo 1. Credit: NASA.

The spacecraft was fully assembled and stacked on top of its unfuelled Saturn IB launch vehicle on pad 34. The umbilical power cords that usually supplied power were removed the plugs were out and the spacecraft switched over to battery power. The cabin was pressurized with 16.7 pounds per square inch (psi) of 100 percent oxygen, a pressure slightly greater than one atmosphere. With everything just as it would be on February 21, the crew went through a full simulation of countdown and launch.

A full launch-day staff of engineers in mission control also went through the simulation. The White Room, the room through which the astronauts entered the spacecraft, remained pressed next to the vehicle. A crew of engineers monitored the spacecraft and were just feet away from the astronauts.

Bondarenko_valentin

Grissom, White, and Chaffee suited up and entered the Apollo 1 command module at 1pm and hooked into the spacecraft s oxygen and communications systems. For the next five and a half hours, the test proceeded with only minor interruptions. Grissom s complaint of a smell like sour buttermilk in the oxygen circulating through his suit was resolved after a short hold, and a high oxygen flow through the astronauts suits tripped an alarm. But these were minor problems and didn t raise any red flags in mission control.

The real problem was communication. Static made it impossible for the crew and mission control to hear one another. An increasingly frustrated Grissom began to question how they were expected to get to the Moon if they couldn t talk between a few buildings.

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The Apollo 1 official crew portrait. L-R: Ed White, Gus Grissom, Roger Chaffee. Credit: NASA.

Just after 6:31 that evening, the routine test took a turn. Engineers in mission control saw an increase in oxygen flow and pressure inside the cabin. The telemetry was accompanied by a garbled transmission that sounded like fire. The official record reflects the communications problem. The transmission was unclear, but the panic was obvious as an astronaut yelled something like they re fighting a bad fire let s get out. Open er up or we ve got a bad fire let s get out. We re burning up. The static made it impossible to hear the exact words or even distinguish who was speaking.

But flames visible through the command module s small porthole window left no doubt about what the crew had said. Engineers in the White Room tried to get the hatch open but couldn t. It was an inward opening design, and neither engineers outside the spacecraft nor the astronauts inside were strong enough to force it open. The men in mission control watched helplessly as the scene played out on the live video feed.

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The Apollo 1 crew in a less formal setting. L-R: Gus Grissom, Ed White, Roger Chaffee. Credit: NASA.

Just three seconds after the crew s garbled report of a fire, the pressure inside the cabin became so great that the hull ruptured. Men wrestling with the hatch were thrown across the room as flames and smoke spilled into the White Room. Many continued to fight their way towards the spacecraft but were forced to retreat as the smoke grew too thick to see through. In mission control, the telemetry and voice communication from Apollo 1 went completely silent.

An hour and a half later, firemen and emergency personnel succeeded in removing the bodies; Ed White was turned around on his couch reaching for the hatch. Over the next two months, the spacecraft was disassembled piece by piece in an attempt to isolate the cause of the fire. The full investigation lasted a year.

Apollo 1 recovery training

The Apollo 1 crew floats around during water egress training. Credit: NASA.

The Apollo 1 accident review board determined that a wire over the piping from the urine collection system had arced. The fire started below the crew s feet, so from their supine positions on their couches they wouldn t have seen it in time to react. Everything in the cabin had been soaking in pure oxygen for hours, and flammable material near the wire caught fire immediately. From there, it took ten seconds for spacecraft to fill with flames.

The crew s official cause of death was asphyxiation from smoke inhalation. Once their oxygen hoses were severed they began breathing in toxic gases. All three astronauts died in less than a minute. Many who had tried to save them were treated for smoke inhalation.

The Chamber of Silence

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Astronaut Frank Borman's official Gemini era portrait. Borman was the astronaut's representative on the Apollo 1 accident review board. Credit: NASA.

The fire that claimed the lives of Grissom, White, and Chaffee is eerily similar to one that killed cosmonaut Valentin Bondarenko in 1961. Bondarenko was known to his colleagues as a congenial and giving man with great athletic prowess who worked tirelessly to prove he deserved the honour of flying in space.

Part of the cosmonauts training was done in an isolation chamber designed to mimic the mental stresses spaceflight. The room, which the men called the Chamber of Silence, was spartan to say the least. It was furnished with a steel bed, a wooden table, a seat identical to what they would have in the Vostok capsule, minimal toilet facilities, an open-coil hot plate for warming meals, and a limited amount of water for washing and cooking. The chamber was pressurized to mimic the capsule s environment in space. In this case, the oxygen concentration was 68 percent.

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Ed White III touches his father's name on the Apollo 1 panel of the Space Mirror Memorial at the Kennedy Space Centre visitor complex. Credit: NASA.

During the test, cosmonauts would exercise mental agility with memory games using a wall chart with coloured squares. They would keep busy by reading or colouring subjects were supplied with some leisure material. The silence was frequently interrupted by classical music to see how the subjects reacted to a pleasurable shock. Aside from these distractions, sensory deprivation inside the chamber was absolute. The room was mounted on thick rubber shock absorbers that muffled any vibrations from movement outside, and the 16-inch thick walls absorbed any sound. The cosmonauts communicated with doctors by lights. A light told the subject to apply medical sensors to his body, and a light outside the chamber signaled to doctors that they could begin their tests. A different light would signal the end of the isolation test.

The environment was designed to challenge the cosmonauts mental stability and adaptability. But the hardest part was that no subject knew beforehand how long his test would last. It could run anywhere from a few hours to weeks.

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The Apollo 1 crew walks across the gantry before entering the spacecraft on January 27. Credit: NASA.

Bondarenko was the 17th cosmonaut to go into the Chamber of Silence and on March 23, his ten day test came to an end. A light signaled that technicians outside had started depressurizing the chamber to match the atmosphere outside. It was a routine part of the test, but this time it was interrupted by a fire alarm.

While he waited to leave the chamber, Bondarenko removed his biomedical sensors and wiped the adhesive off with rubbing alcohol on a cotton pad. In his haste to leave, and exhibiting the lack of concentration expected after ten days of mental testing, he didn t look where he threw the pad. It landed on the hot plate s coil. Cosmonaut Pavel Popovich theorized that he had been standing next to it at the time. Many subjects left the small heater on all the time to warm up the chilly room.

Dummy in Vostok seat Associated PressA dummy rides in a Vostok capsule seat. Credit: Associated Press.

A fire sparked and spread in an instant; everything, including Bondarenko, was saturated with a high concentration of oxygen. Technicians wrenched the door open and exposed the chamber to air, killing the fire instantly, but the damage was done. Doctors pulled a huddled and severely burnt Bondarenko from the room. It s my fault, he whispered when doctors reached him, I m so sorry no one else is to blame. The severity of the fire was immediately obvious. Bondarenko s wool clothes had melted onto his body and the skin underneath had burned away. His hair had caught fire. His eyes were swollen and melted shut.

In Moscow, surgeon and traumatologist Vladimir Julievich Golyakhovsky got a frantic call at his office; the severely burned patient was on his way. Ten minutes later, a team of men in military uniforms arrived carrying the blanket-wrapped cosmonaut. They were accompanied, Golyakhovsky later recalled, by an overwhelming smell of burnt flesh.

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The damage to the Apollo 1 crew cabin, after the bodies were removed and before the disassembly began. Credit: NASA.

Bondarenko pleaded for something to kill the pain. Golyakhovsky obliged and gave the patient a shot of morphine in the soles of his feet. It was the one unscathed part of his body thanks to his heavy boots, and the only place the doctor could find a vein. There was nothing he could do to save the man s life. Bondarenko died the next morning. The official cause was shock and severe burns.

Lessons at Home

Parallels between the Apollo 1 crew s and Bondarenko s deaths are obvious, but how each space agency dealt with the deaths was very different. Grissom, White, and Chaffee were each given very public funerals in accordance with their respective military traditions. Bondarenko s death was kept secret, his identity covered by a pseudonym. Not until 1986 did the world hear the true story of his death. This has bred speculation that had the Soviet system been more open, NASA would have know about the dangers of training in a pressurized pure oxygen environment and could have saved the Apollo 1 crew. Former cosmonaut Alexei Leonov even suggested that the CIA knew about Bondarenko since the US had pierced the Iron Curtain before the accident.

But this is unlikely. And besides, NASA wouldn t need to look to the Soviet Union to know the dangers of testing in a pressurized oxygen environment. There were enough incidents in the US to make the danger very clear. Four oxygen fires in the five years before the Apollo 1 accident were proof enough.

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The Apollo 1 spacecraft nearing the end of the disassembly. Sometime towards the end of March, 1967. Credit: NASA.

On September 9, 1962, a fire broke out in a simulated spacecraft cabin at Brooks Air Force Base. The cabin was pressurized to 5psi with pure oxygen. Both subjects were protected by pressure suits. Neither sustained burns, but both were treated for smoke inhalation.

Two months later on November 16, four men had been inside the US Navy s Air Crew Equipment Laboratory for 17 days in an environment pressurized to 5psi of 100 percent oxygen when an exposed wire arced and started a fire. It spread rapidly over the men s clothing and hands for 40 seconds before they were rescued. All were treated for severe burns, and this was the only instance in which the source of the fire was identified.

Two Navy divers were killed on February 16, 1965 in a test of the Navy s Experimental Diving Unit, which was pressurized to 55.6psi to mimic conditions at a depth of 92 feet. It was a multi-gas environment: 28 percent oxygen, 36 percent nitrogen, and 36 percent helium. Somehow, the carbon dioxide scrubbers that were designed to remove the toxic gas from the air caught fire. Pressure inside the chamber rose making it impossible for technicians outside to open the door and remove the men.

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Gus Grissom's funeral procession. Credit: NASA.

A 1966 oxygen environment fire came frighteningly close to anticipating the Apollo 1 accident. A fire broke out during an unmanned qualification test of the Apollo Environmental Control System on April 28. The cabin was pressurized to 5psi of 100 percent oxygen, just like the spacecraft would be in flight. The fire was blamed on a commercial grade strip heater inside the cabin and the incident was consequently dismissed. The commercial material would not be onboard any manned flights. The board that investigated the accident made no mention of the hazardous environment.

A Lack of Imagination

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The Apollo 1 mission patch. Credit: NASA.

These accidents weren t secret. NASA knew the dangers of a pressurized oxygen environment, which has prompted conspiracy theorists to suggest that the space agency intentionally put the Apollo 1 crew in danger. But this was hardly the case. In truth, no one at NASA gave much thought to a fire in the spacecraft.

In the early 1960s when Apollo was in its preliminary stages, a dual gas system (likely oxygen and nitrogen) was proposed for the crew cabin. This would have been safer in the event of fire, but more difficult overall. A mixed gas environment requires more piping and wiring, which in turn adds weight. Pure oxygen was simpler, lighter, and was already familiar to NASA. The dual-gas idea was scratched.

NASA did address the possibility of a fire in the spacecraft, but only developed procedures for an event in space when the nearest fire station was 180 miles away. Apollo, like Mercury and Gemini, had no specific fire fighting system on board. The 5psi of oxygen in space was considered too thin to feed a significant fire. Anything that could spark in that environment could be taken care of with a few well aimed blasts from the astronauts water pistol.

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Grissom's, White's, and Chaffee's death are the cover story of Life Magazine's February 10 issue. Credit: Life.

There was no procedure for a fire on the ground. With so many engineers on hand for every test, it was assumed that the astronauts would safe so long as fire extinguishers were nearby. But more importantly in the case of Apollo 1 is the plugs out test s status: it wasn t classified as dangerous.

Frank Borman, a Gemini veteran who would go to the Moon on Apollo 8, served as the astronaut s representative to the Apollo 1 accident investigation board. He made this point about the plugs out test s status abundantly clear. I don t believe that any of us recognized that the test conditions for this test were hazardous, he said on record. Without fuel in the launch vehicle and all the pyrotechnic bolts unarmed, no one imagined a fire could start let alone thrive. Borman himself hadn t thought twice when he went through the plugs out test before his Gemini 7 mission. He was confident in NASA and its engineers and stated on record that he would have gone through the Apollo 1 test had he been on the crew.

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The Apollo 1 crew expressed their concerns over the Apollo spacecraft in a joke crew portrait. They said a little prayer, and gave the picture to the manager of the Apollo Spacecraft Program Office Joe Shea in 1966. Credit: NASA.

Borman alluded to the Apollo 1 crew s shared confidence. There had been problems with Apollo w development, and every astronaut had the right to refuse to enter a spacecraft. Although there are sometimes romantic silk-scarf attitudes attributed to this type of business, in the final analysis we are professionals and will accept risk but not undue risks, explained Borman. The Apollo 1 crew felt the dangers were minimal.

With that statement, Borman identified what he considered the crux of the problem and the real reason, however indirect, behind the death of the crew. We did not think, he said, and this is a failing on my part and on everyone associated with us; we did not recognize the fact that we had the three essentials, an ignition source, extensive fuel and, of course, we knew we had oxygen.

LC34plaque2A plaque commemorating the Apollo 1 crew on what's left of launch pad 34. Credit: Christopher K. Davis (via Wikipedia).

Gus Grissom serendipitously wrote his memoirs during the Gemini program. He addresses the inherent risk of spaceflight in the book s final passage. There will be risks, as there are in any experimental program, and sooner or later, inevitably, we re going to run head-on into the law of averages and lose somebody. I hope this never happens but if it does, I hope the American people won t feel it s too high a price to pay for our space program. None of us was ordered into manned spaceflight. We flew with the knowledge that if something really went wrong up there, there wasn t the slightest hope of rescue. We could do it because we had complete confidence in the scientists and engineers who designed and built our spacecraft and operated our Mission Control Centre… Now for the moon.

Though tragic, their deaths were not in vain. The substantial redesigns made to the Apollo command module after the fire yielded a safer and more capable spacecraft that played no small role in NASA reaching the moon before the end of the decade. It is a fitting tribute to the crew that the plaque on the pad where they perished reads ad astra per aspera a rough road to the stars.

Webster