Fire! How the Mir Incident Changed Space Station Safety

Jerry Linenger dons a mask during his mission on Mir in 1997. Credit: NASA

Sixteen years ago, a fire on the Russian space station Mir erupted after a cosmonaut routinely ignited a perchlorate canister that produced oxygen to supplement the space station’s air supply. Jerry Linenger, an American astronaut aboard Mir at that time, wrote about the incident that occurred on February 24, 1997 in his memoir Off the Planet:

As the fire spewed with angry intensity, sparks – resembling an entire box of sparklers ignited simultaneously – extended a foot or so beyond the flame’s furthest edge. Beyond the sparks, I saw what appeared to be melting wax splattering on the bulkhead opposite the blaze. But it was not melting max. It was molten metal. The fire was so hot that it was melting metal.

Linenger famously had some trouble donning gas masks, which kept malfunctioning, but he and the rest of the crew managed to put out the blaze before it spun out of control. The cause was traced to a fault in the canister.

Mir itself was deorbited in 2001, but the fire safety lessons are still vivid in everyone’s mind today.

Outside view of the Mir space station. Credit: NASA
Outside view of the Mir space station. Credit: NASA

NASA fire expert David Urban told Universe Today that a fire is among the most catastrophic situations that a crew can face.

You can’t go outside, you’re in a very small volume, and your escape options are limited. Your survival options are limited. That space can tolerate a much smaller fire than you can tolerate in our home. The pressure can’t escape easily, and the heat stays there, and the toxic products are there as well.

Urban, who is chief of the combustion and reacting systems branch of the research and technology directorate of the NASA Glenn Research Center, said NASA and Russia have learned several things from the incident that they have implemented on the International Space Station today:

Changing fabrication procedures for the canisters. NASA officials and their Russian counterparts “took a good hard look” at the canisters and determined they were still the best solution given their modest weight and easy portability. They did, however, put stricter guidelines into the fabrication in the Russian facility. “The most likely cause was contamination during assembly of the cassette, the cartridge that contains the perchlorate. So, much stronger control there and more testing of the units as they make them. ”

Better insulation. Urban noted the canisters are now in specially designed cases, a sort of high-temperature insulation package that can absorb the “blow torch effect” that happens if a unit fails. “It protects the rest of the vehicle … like a fire in a fireplace.”

Clearing the way. Just before the Mir fire happened, the crew happened to clean up trash from the immediate area near the faulty canister.  The procedure was just a coincidence, but it could have ended up saving the ship, Urban said. Today’s space station crews are very careful to keep a buffer between the canisters on board and any items. “In the shuttle era, it was different because it came back in 16 days or less. The space station or Mir, it’s like your house. You can’t let clutter accumulate. We’ve learned a lot in Mir about how to manage a long-duration vehicle.”

Keeping up with the latest research. There are, in fact, two fire suppression systems on the International Space Station: a water foam system in the Russian sections, and a carbon dioxide system in the United States area. NASA is now working on a more modern “water mist” fire suppression method, based on an ongoing trend seen protecting terrestrial areas such as electronics and shipping rooms. This system emits fine particles, sort of like a sprinkler, that are just tens of microns across and act almost like a gas. Urban said the system is late in the design review part of development and should be ready for use on station within the next couple of years.

One 2011 NASA report on the incident also highlighted the importance of emergency preparation and safety drills to mitigate fires as they happen. “More effective warning systems could save several seconds of reaction time, which, in a crisis, could mean the difference between success and failure,” it stated. You can read the rest of that report here.

Space Station Astronauts Hangout with Earthlings (and Universe Today!)

Canadian Space Agency astronaut Chris Hadfield uses a camera to photograph the topography of a point on Earth from a window in the Cupola of the International Space Station. Credit: NASA

It’s not often that people on Earth get to hangout with astronauts in space, but today NASA held the first-ever Google Plus Hangout from the International Space Station. It was a live event, and if you aren’t familiar yet with G+ Hangouts (you really should be by now!) they allow people to chat face-to-face while thousands more can tune in to watch the conversation live on Google+ or YouTube. NASA took questions live from Twitter and G+, but they also took questions submitted previously via You Tube, and we were proud to see that Fraser’s question that he submitted via You Tube was included in the Hangout! You can see the question and astronaut Chris Hadfield’s reply at about 42:00 in the video above.

Fraser asked how being on the ISS and the special conditions it has (microgravity, harsh exposures, distant objects, weird lighting ) affect photography — and as you know we feature A LOT of ISS photography here on UT.

Hadfield said photography from orbit is quite complex, but the “weird” part about it is that space is so incredibly black and dark. The difficulty is having the dark background of space against the brightness of Earth and trying to balanace that. The advantage is being able to use the really big lenses and have them be weightless — no tripod needed!.

“The best part is,” Hadfield added, “even though we are not photographers by trade, we have really good professional photographers as trainers and a vantage point that is absolutely unparallelled.”

Another Incredible Timelapse from the ISS

'The full moon rises over the only planet we have ever called home,' Tweeted astronaut Chris Hadfield.

We never get tired of these amazing views from the International Space Station, but this one has it all: a silvery Moon setting into the Earth’s atmosphere, the dazzling Milky Way rising into a brilliant sunrise, airglow of all colors, popping lightning, shimmering aurorae, and incredible views of the stunning space station and our gorgeous planet. Brian Tomlinson put this one together, using stills from the Johnson Space Center’s “Gateway to Astronaut Photography of the Earth.

Below is a recent image taken by Canadian astronaut Chris Hadfield showing the Moon hovering above Earth, as seen from the ISS, similar to the views in the opening of the video:

Mission Control Loses Contact with International Space Station

The International Space Station. Credit: NASA

Today at about 9:45 a.m. EST (15:45 UTC) the International Space Station experienced a loss of communication with the Mission Control in Houston, and at this writing, communication has yet to be re-established. When communication was lost, flight controllers in Houston were updating the software onboard the station’s flight computers, and one of the station’s data relay systems malfunctioned. The primary computer that controls critical station functions defaulted to a backup computer, but was not allowing the station to communicate with NASA’s Tracking and Data Relay Satellites, NASA said.

Update: according to the Johnson Space Center Twitter feed, communications have been restored with the space station effective 11:34 am central time (17:34 UTC).

Flight controllers were able to communicate with the crew as the space station flew over Russian ground stations before 11:00 a.m. EST and instructed the crew to connect a backup computer to begin the process of restoring communications. Expedition 34 Commander Kevin Ford reported that the station’s status was fine and that the crew was doing well.

“Hey, just FYI, the station is still flying straight, everybody is in good shape, or course, and nothing unexpected except lots of caution and warning [alarms],” Ford said. “All the systems look like they are doing just fine.” Listen to the recording of his call here.

The loss occurred just prior to NASA TV’s regular broadcast of space station activities, and commentator Brandi Dean said, “We are able to see some data on the ground to let us know that everything is still good on the station and everything is going well with the procedures to re-establish communications with the ground.”

Dean said communication is expected to re-established within an hour, but we’ll provide updates if more problems persist.

In an uncanny coincidence (or prescience), Canadian astronaut Chris Hadfield Tweeted this morning, “Good Morning, Earth! Today we transition the Space Station’s main computers to a new software load. Nothing could possibly go wrong.”

10 Awesome Images of the Space Station’s Cupola

Expedition 24's Tracy Caldwell Dyson gazes out of the cupola. Credit: NASA

There’s a panoramic window on the International Space Station named after the observation decks that old-time train cabooses had.

The Cupola, as it’s known, includes six side windows and a big one in the center. An astronaut floating nearby can see 1,000 km of Earth below him or her. It’s the ultimate spot to keep an eye on a hurricane, or provide guidance to a crewmate wrestling the robotic Canadarm2 towards an incoming spacecraft.

Hard to believe it’s been three years since the astronauts on STS-130 installed it in February 2010. Below, check out the best of astronaut photography of or from the Cupola since that time.

From the outside, the cupola looks like an extraterrestrial spacecraft. That's Douglas Wheelock (Expedition 25) inside the window. Credit: NASA
From the outside, the cupola looks like a flying saucer. That’s Douglas Wheelock (Expedition 25) inside the window. Credit: NASA
A green tint from an aurora is seen out the Cupola over the southern Indian Ocean. Credit: NASA
A green tint from an aurora is seen out the Cupola over the southern Indian Ocean. Credit: NASA
Canadarm2 makes some moves towards Japan's robotic H-II Transfer Vehicle (HTV-3) during Expedition 32. Credit: NASA
Canadarm2 makes some moves towards Japan’s robotic H-II Transfer Vehicle (HTV-3) during Expedition 32. Credit: NASA
The Cupola provides a portal to 215 million years in the past: The Manicouagan impact crater in northern Québec shows up nearly in the center of the main Cupola window. Credit: NASA
The Cupola provides a portal to 215 million years in the past: The Manicouagan impact crater in northern Québec shows up nearly in the center of the main Cupola window. Credit: NASA
The STS-131 crew somehow organizes themselves on the small window in microgravity. Pictured are Commander Alan Poindexter, Pilot James P. Dutton Jr. and Mission Specialists Dorothy Metcalf-Lindenburger, Rick Mastracchio, Naoko Yamazaki, Clayton Anderson and Stephanie Wilson. Credit: NASA
The STS-131 crew somehow organizes themselves on the small window in microgravity. Pictured are Commander Alan Poindexter, Pilot James P. Dutton Jr. and Mission Specialists Dorothy Metcalf-Lindenburger, Rick Mastracchio, Naoko Yamazaki, Clayton Anderson and Stephanie Wilson. Credit: NASA
NASA astronaut Ron Garan looking down at a night view of Australia from the International Space Station's cupola..
NASA astronaut Ron Garan looking down at a night view of Australia from the International Space Station’s cupola..
An Expedition 27 crewmember captured this cyclone over the north Pacific. Told you it's a good view. Credit: NASA
An Expedition 27 crewmember captured this cyclone over the north Pacific. Told you it’s a good view. Credit: NASA
The end effector -- or grappler -- at the end of the Space Station's Canadarm 2 robotic arm is visible out the main window of the Cupola, with a view of our beautiful blue planet below. Credit: NASA.
The end effector — or grappler — at the end of the Space Station’s Canadarm 2 robotic arm is visible out the main window of the Cupola, with a view of our beautiful blue planet below. Credit: NASA.
STS-130's Nicolas Patrick casually hanging out beneath the cupola after helping install it. Credit: NASA
STS-130’s Nicholas Patrick casually hanging out beneath the cupola after helping install it. Credit: NASA

There have also been some stunning filmed timelapses from the Cupola, such as this one:

Canadarm Ready to Ensnare Space Dragon after March 1 Blast Off

Canadarm pictured through a winow aboard the ISS will be used to grapple the SpaceX Dragon after planned March 1 liftoff. Credit: NASA/Thomas Mashburn

Wouldn’t you love to wake up to this gorgeous view of our home planet as a big hand waves a friendly good morning ?!

Well, having survived high speed wayward Asteroids and Meteors these past few days, the human crew circling Earth aboard the International Space Station (ISS) is game to snatch a flying Space Dragon before too long.

NASA will dispatch astronaut fun to orbit in the form of the privately built SpaceX Dragon in a tad less than two weeks time that the crew will ensnare with that robotic hand from Canada and join to the ISS.

On March 1 at 10:10 AM EST, a Space Exploration Technologies (SpaceX) Falcon 9 rocket is slated to blast off topped by the Dragon cargo vehicle on what will be only the 2nd commercial resupply mission ever to the ISS.

The flight, dubbed CRS-2, will lift off from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida carrying about 1,200 pounds of vital supplies and science experiments for the six man international crew living aboard the million pound orbiting outpost.

SpaceX, Dragon spacecraft stands inside a processing hangar at Cape Canaveral Air Force Station in Florida. Teams had just installed the spacecraft's solar array fairings. Credit: NASA/Kim Shiflett
SpaceX Dragon spacecraft stands inside processing hangar at Cape Canaveral Air Force Station in Florida. Teams had just installed the spacecraft’s solar array fairings. Credit: NASA/Kim Shiflett

The ISS would plummet from the sky like a flaming, exploding meteor and disintegrate without periodic and critical cargo and fueling resupply flights from the ISS partner nations.

There will be some heightened anticipation for the March 1 SpaceX launch following the premature shutdown of a 1st stage Merlin engine during the last Falcon 9 launch in 2012.

The solar powered Dragon capsule will rendezvous with the ISS a day later on March 2, when NASA astronauts Kevin Ford and Tom Marshburn will reach out with the Canadian built robotic marvel, grab the Dragon by the proverbial “tail” and attach it to the Earth-facing port of the station’s Harmony module.

The Dragon will remain docked to the ISS for about three weeks while the crew unloads all manner of supplies including food, water, clothing, spare parts and gear and new science experiments.

Then the astronauts will replace all that cargo load with numerous critical experiment samples they have stored during ongoing research activities, as well as no longer needed equipment and trash totaling about 2300 pounds, for the return trip to Earth and a Pacific Ocean splashdown set for March 25 – as things stand now.

SpaceX Falcon 9 rocket before May 2012 blast off from Cape Canaveral Air Force Station, Florida on historic maiden private commercial launch to the ISS. Credit: Ken Kremer/www.kenkremer.com
SpaceX Falcon 9 rocket before May 2012 blast off from Cape Canaveral Air Force Station, Florida on historic maiden private commercial launch to the ISS. Credit: Ken Kremer/www.kenkremer.com

SpaceX is under contract to NASA to deliver about 44,000 pounds of cargo to the ISS during a dozen flights over the next few years at a cost of about $1.6 Billion.

SpaceX comprises one half of NASA’s Commercial Resupply Services program to replace the cargo up mass capability the US lost following the retirement of NASA’s space shuttle orbiters in 2011.

SpaceX also won a NASA contract to develop a manned version of the Dragon capsule and aims for the first crewed test flight in about 2 to 3 years – sometime during 2015 depending on the funding available from NASA.

The US is now totally dependent on the Russians to loft American astronauts to the ISS on their Soyuz capsules for at least the next 3 to 5 years directly as a result of the shuttle shutdown.

Along with SpaceX, Orbital Sciences Corp also won a $1.9 Billion cargo resupply contract from NASA to deliver some 44,000 pounds of cargo to the ISS using the firm’s new Antares rocket and Cygnus capsule – launching 8 times from a newly constructed pad at NASA’s Wallops Island Facility in Virginia.

The maiden launch of Orbital’s Antares/Cygnus system has repeatedly been delayed – like SpaceX before them.

NASA hopes the first Antares/Cygnus demonstration test flight will now occur in March or April. However, the Antares 1st stage hot fire test scheduled for earlier this week on Feb. 13 had to be aborted at the last second due to a technical glitch caused by a low nitrogen purge pressurization.

For the SpaceX launch, NASA has invited 50 lucky social media users to apply for credentials for the March 1 launch

Watch for my upcoming SpaceX launch reports from the Kennedy Space Center and SpaceX launch facilities.

Ken Kremer

Workers lift a solar array fairing prior to installation on the company's Dragon spacecraft. The spacecraft will launch on the upcoming SpaceX CRS-2 mission. Credit: NASA/Kim Shiflett
SpaceX technicians lift a solar array fairing prior to installation on the company’s Dragon spacecraft. The spacecraft will launch on the upcoming SpaceX CRS-2 mission. Credit: NASA/Kim Shiflett

Freaky Fast Delivery: Progress Blasts Off, Docks at ISS Hours Later

Progress 50 approaching the International Space Station on Feb. 11, 2013. Via NASA TV.

The Progress 50 resupply ship has now arrived at the International Space Station, just hours after it launched from the Baikonur Cosmodrome in Kazakhstan. Launch took place at 9:41 a.m. EST, (14:40 UTC) today (February 11, 2013) and it took only a four-orbit journey to rendezvous with the ISS, docking at 3:34 pm EST (20:35 UTC).

“Progress 50 just docked to our Space Station!” Tweeted astronaut Chris Hadfield (@Cmdr_Hadfield) “I was right at the hatch, it made a quick sliding scraping noise & then a solid thud. Success!”

This is third successful execution of the new, modified launch and docking profile for the Russion Progress ships, and its success is paving the way for its first use on a manned mission – possibly as early as March 2013 for Soyuz TMA-08, Roscosmos said via Facebook. Russian cosmonaut Gennady Padalka has been quoted as saying it is every cosmonaut’s dream to only have a 6-hour flight in the cramped Soyuz.

Watch the launch and docking video below:


Normally, Progress supply ships –and manned Soyuz capsules — are launched on trajectories that require about two days, or 34 orbits, to reach the ISS. The new fast-track trajectory has the rocket launching shortly after the ISS passes overhead — today, the space station was just 1,400 kilometers (870 miles) downrange from the launch site at the time of liftoff. Then additional firings of the Progress engines early in its mission expedites the time required for a Russian vehicle to reach the complex.

That also give the ISS crew the chance to actually see the launch from orbit. Today, NASA-TV commentator Kyle Herring said that ISS commander Kevin Ford reported he was able to see the first stage separation, which occurred about two minutes after launch. Herring said the cameras on the International Space Station were pointed to try and observe the launch. We’ll add any images here, if the cameras were able to capture anything.

Progress 50 is carrying 2.9 tons of supplies and equipment, including 800 kg (1,764 pounds) of space station propellant, 50 kg (110 lbs)of oxygen and air, 420 kg (926lbs) of water and 1,360 kg (3,000 lbs) of spare parts, science gear and other dry cargo. Right now, this Progress is scheduled to remain docked at the ISS until late April. The previous Progress cargo ship undocked from the Pirs module of the International Space Station at 13:15 GMT on Saturday February 9 and re-entered Earth’s atmosphere over the Pacific Ocean, burning up during re-entry.

Earlier this month, NASA’s Space Station Program Manager Mike Suffradini said the space station partners have tentatively agreed to try a the fast-track trajectory with a manned mission “at least once or twice to show we have the capability in case we need to get to ISS quick for any reason.”

He added that the decision to fly like this long-term is still to be determined.

This article has been updated.

Astrophoto: Desert Space Station

The International Space Station, as seen from Saguaro National Park East in Arizona. Credit: Robert Sparks.

Old meets space-age in this image of the International Space Station passing over an ancient saguaro cactus at the Saguaro National Park East near Tucson, Arizona. Robert Sparks (a.k.a. @halfastro or hale-bopp37 on Flickr) captured this beautiful image on February 6, 2013. While the ISS is just over 12 years old, the saguaro seen here could be upwards of 200 years old. These prickly old soldiers don’t usually start to grow arms until they are between 50 to 100 years of age, and they may live for perhaps 200 years or more.

Rob also captured the expanse of the awesome desert night sky, too.

Want to get your astrophoto featured on Universe Today? Join our Flickr group or send us your images by email (this means you’re giving us permission to post them). Please explain what’s in the picture, when you took it, the equipment you used, etc.

Antares Rocket Critical Hotfire Engine Test Set for Feb. 12

Orbital Antares rocket at Wallops Island Pad. Credit: Orbital Sciences

Orbital Sciences Corporation has at last scheduled a critical engine test for the firm’s new commercially developed Antares medium class rocket for Feb. 12 at the Mid-Atlantic Regional Spaceport’s (MARS) Pad-0A.

NASA’s Wallops Flight Facility will provide launch range support for the Antares rocket test which is a key milestone on the path to a flight that is crucial for eventual resupply of the International Space Station (ISS).

The window for the 29 second long engine test is 6-9 p.m EST. There will be no live broadcast or formal viewing of the test since it is only operational in nature.

For this hot fire test only the first stage of the Antares rocket will be rolled out to the launch pad – the first of its kind constructed in America in several decades.

The first stage of the Antares rocket stands on the pad at NASA's Wallops Flight Facility. Credit: Orbital Sciences
The first stage of the Antares rocket stands on the pad at NASA’s Wallops Flight Facility. Credit: Orbital Sciences

During the test, the Antares’ dual AJ26 first stage rocket engines will generate a combined total thrust of 680,000 lbs. In a unique capability for its duration, the rocket will be held down on the pad and accounts for the huge water tower built nearby.

The goal of the hot fire test is a complete checkout of the rocket’s first stage and all the support systems at Pad-0A being utilized for the first time.

Antares is the launcher for Orbital’s unmanned commercial Cygnus cargo spacecraft that NASA’s hopes will further reestablish American resupply missions to the International Space Station (ISS) lost with the shuttle’s shutdown.

If successful, a full up test flight of the 131 foot tall Antares with a Cygnus mass simulator bolted on top is planned for the maiden launch in roughly 4 to 6 weeks later, perhaps by late March 2013.

Antares/Cygnus will provide a similar service to the Falcon 9/Dragon system developed by SpaceX Corporation – which has already docked twice to the ISS during historic linkups in 2012.

Both the Orbital and SpaceX systems were developed under NASA’s Commercial Orbital Transportation Services (COTS) program to replace the ISS cargo capability previously tasked to NASA Space Shuttle’s.

A docking demonstration mission to the ISS would follow later in 2013 which would be nearly identical in scope to the SpaceX Falcon 9/Dragon demonstration flight successfully accomplished in May 2012.

SpaceX Falcon 9 rocket liftoff on May 22, 2012 from Space Launch Complex-40 at Cape Canaveral Air Force Station, Fla., on the first commercial mission to the International Space Station.  Orbital hopes to duplicate the SpaceX feat in 2013.  Credit: Ken Kremer
SpaceX Falcon 9 rocket liftoff on May 22, 2012 from Space Launch Complex-40 at Cape Canaveral Air Force Station, Fla., on the first commercial mission to the International Space Station. Orbital hopes to duplicate the SpaceX feat in 2013. Credit: Ken Kremer

The Antares first stage is powered by a pair of Soviet era NK-33 engines built during the 1960 and 1970’s as part of Russia’s ill-fated N-1 manned moon program. The engines have since been upgraded and requalified by Aerojet Corp. and integrated into the Ukrainian built first stage rocket as AJ-26 engines.

Tens of millions of US East Coast residents in the Mid-Atlantic and Northeast regions have never seen anything as powerful as an Antares rocket launch in their neighborhood.

“Antares is the biggest rocket ever launched from Wallops,” NASA Wallops spokesman Keith Koehler told me.

Ken Kremer

Space Jam: Astronaut Sings Duet From the Space Station

Chris Hadfield in the Cupola of the ISS. Credit: NASA

Canadian astronaut Chris Hadfield participated in an annual event for Canadian music students from a unique location: a long-distance perch in the Cupola of the International Space Station. Before launching to the ISS in December, Hadfield wrote a song with Ed Robertson of the band Barenaked Ladies, and Friday morning the song premiered as Hadfield, Robertson and a school glee club sang together: Hadfield performed his part on the space station; Robertson did his in Toronto with the Wexford Gleeks. The song was part of Music Monday in Canada, and while today’s premiere was pre-recorded, in May, students across Canada will play the song live with Hadfield in space.

The song is called “I.S.S. (Is Somebody Singing),” it begins with the words:

Eighteen-thousand miles an hour
Fueled by science and solar power
The oceans racing past
At half a thousand tons
Ninety minutes moon to sun
A bullet can’t go half this fast.

Music aficionados can find the sheet music here and here.

Hadfield plays the guitar and sings with a couple of bands on Earth. Before he began his Expedition on the ISS, he told Universe Today he would be doing as much singing as he could in space.

“Music is really important to me, ever since I’ve been a kid. I’ve always played guitar and sang,” he said, “and I’m really hoping to have the chance to sit weightless with the guitar on board and play music, and also record some of the music I’ve written.”

He also is working to finish some songs he started writing on Earth while living on the ISS, which he called “a particularly inspirational environment” and maybe write some news ones.

“We have all the recording equipment we need on board,” he said. “It is basic but it is good enough to be able to record and I’m hoping to record at least one full CD’s worth of original music up there. It’s neat – I’m writing with my brother who is a musician, and he pointed out that a lot of the traditional folk songs came from people who were the first on the frontier — the early explorers, sailors, miners, and the fishermen — the people who are involved in the day-to-day of a specific human experience. To think I might be involved in helping to write some of the first space faring music, music that people might play and sing as they leave Earth for Mars, it is an interesting time in history.”

This isn’t the first Earth-Space musical collaboration: in 2011 astronaut Cady Coleman did a flute duet with Jethro Tull’s Ian Anderson.