STS 130 flight pressing forward to launch as NASA resolves coolant hose leak

Caption: Tranquility and Cupola lowered into canister for transport to Launch Pad 39 A. Credit: NASA

NASA managers decided on Tuesday (Jan. 12) to press forward towards an on time liftoff target date of Feb 7 for Space Shuttle Endeavour as engineers developed a workaround solution to the ammonia coolant hose leak issue which has threatened to delay the launch or seriously alter the mission goals (read my earlier post). The ammonia jumper hoses are critical to the success of the STS 130 mission because they will supply cooling capacity to the new Tranquility module by circulating ammonia and transport the heat generated by the on board systems. Space walking astronauts must connect the hoses from Tranquility to the space station’s cooling system during the STS 130 flight in order to fully activate Tranquility for use by the orbiting outposts crew.

The primary goal of STS 130 is to deliver, attach and activate the Italian built Tranquility pressurized module with will provide significant additional living and work space for the resident ISS crews. Joined to one end of Tranquility is the Cupola observation module. Three EVA’s are planned to accomplish all the essential work to wholly attach and activate Tranquility and also relocate Cupola to an earth facing port on Tranquility.

Mike Suffredini, NASA’s space station manager, decided to proceed toward a Feb 7 launch and that the mission will retain full mission content. Thus there will be no reduction in tasks and NASA is no longer pursuing a “partial” activation of Tranquility. The crew is therefore expected to accomplish 100% of their goals in activating Tranquility and Cupola.

One of the four 14 ft long flight hoses due to be installed by the astronauts failed during the final pre-flight testing on Jan 7 at a subcontractors facility in California. The high pressure hose ruptured during pressure testing at just about half the specified design pressure, at around 1500 psi vs. the specification of approximately 3000 psi.

After a thorough analysis and evaluation, NASA engineering teams decided to select an alternative hose design which involves welding together shorter 7 ft hoses that are already certified and tested for use aboard the station as the primary jumper, according to Pete Hasbrook, NASA’s Expedition 22 lead increment manager. “They have been working on a beefed up version of the hoses, adding a second braid around the hoses, beefing up the weld and the connector that the metal braid is connected to,” Hasbrook explained at a media briefing on Monday (Jan 11). “The new hoses have now been successfully tested to over 3000 psi”.

The new hoses are now under construction and are set to be delivered to the Kennedy Space Center just about one week before the Feb. 7 target launch date. Any further problems could delay the mission as the number of contingency days available for flow processing is declining. There is no longer any consideration of switching this flight with the next mission, STS 131, planned to blast off on March 18.

Tranquility and Cupola were lifted by crane from their workstand (see photos) inside the Space Station Processing facility (SSPF) today (Jan 12) and gently packed inside the nearby payload transportation canister. The current plan is to move them to the pad this Saturday, according to NASA spokesman Allard Beutel. Continuing cold weather at the Kennedy Space Center in Florida has caused a slight delay in pre-launch activities by technicians working to load propellants aboard Endeavour at Launch Pad 39 A. Read my earlier report on rollout of Endeavour to Pad 39 A here.

Caption: Endeavour was rolled out to Pad 39 A on Jan 6, 2010. Credit: Ken Kremer

This entire hose problem stems from NASA’s decision to change the attach location of Tranquility to the port side (left) of the Unity node, designated as Node 1 and located at the center of the station. To accommodate this change in location custom built hoses were required. “The hoses needed to be longer than originally designed”, Beutel explained to me. “Hoses from the group that were set to fly on STS-130 failed so that’s why we’re looking at all the hoses and making modifications to our plans”.

NASA has also decided on a back up “Plan B”, which is to accelerate development of a redesigned set of “functionally equivalent hoses”, at NASA’s Marshall Space Flight Center, based on the design that failed and bring them up along to orbit for use in the event a problem arises with the new primary design.
Meanwhile, the six person crew of Endeavour continues to train at the Johnson Space Center. They still plan to fly to the Cape for several days of countdown dress rehearsal and safety training on Jan 19.

Earlier STS 130 article by Ken Kremer

STS-130 Shuttle flight facing delay due to Payload technical glitch

Shuttle Endeavour Rolled to Pad; Countdown to the Final Five Begins

STS-130 Shuttle flight facing delay due to Payload technical glitch

Caption: Overhead view of Tranquility & Cupola modules inside the Space Station Processing Facility at Kennedy Space Center on Jan 8, 2010. Tranquility will be attached to ISS by STS 130 astronaut crew. Credit: Ken Kremer

(Editor’s Note: Ken Kremer is in Florida for Universe Today covering the pre-launch activities of Endeavour.)

The launch of Shuttle Endeavour on the STS 130 flight now faces a potential delay due to technical problems with the external ammonia connecting lines which are designed to provide critical cooling capability to the new Tranquility module. Tranquility is a pressurized module being brought aloft as payload in the cargo bay of Endeavour on the STS 130 mission. Launch of Endeavour is currently set for 4:39 AM on Feb. 7.

NASA spokesman Allard Beutel told me Friday afternoon Jan 8 that, “As space station and space shuttle teams prepared for February’s launch of Endeavour, a high-pressure ammonia jumper hose assembly failed during a prelaunch test Thursday. Four such hoses, which will be used to connect the new Tranquility module to the station’s cooling system, are to be installed and activated by spacewalkers during the STS-130 mission.”

Delivery and attachment of Tranquility to the International Space Station (ISS) is the primary goal of STS 130. Its like adding a new room to your house. Tranquility will provide extra living and work space for the astronaut residents aboard the ISS.

NASA engineering teams are now working diligently to try and rectify the hose problems through additional testing, developing alternative work arounds and data evaluation. As they continue searching for solutions throughout the weekend and beyond, its not clear at this point if they can maintain the targeted Feb 7 launch date or if the technical glitch will force a delay.

NASA is considering many options on how to proceed and an on time lift off is still a possibility if the hoses can be cleared for flight as is. Some alternatives include delaying the launch for days if the hoses can be somehow modified quickly and easily, constructing new custom hoses or basically launching with the hose problems as is and living with the problem. This would require significantly revamping all the procedures for how the STS 130 crew would attach and activate Tranquility at the ISS. In this case the mission could potentially be shortened by deleting one or more of the planned three spacewalks. New high pressure ammonia hoses could then be built, delivered and installed on a future shuttle flight.

Image caption: NASA technician proudly enjoys his work preparing Tranquility for launch to the ISS. Credit: Ken Kremer

A more drastic solution would be to switch the order of the remaining five shuttle flights and launch the STS 131 mission, currently slated for Mar. 18, ahead of STS 130. This alternative however would wreak havoc on this years schedule of the final flights before the shuttle is retired and appears less likely as an option, at least as of today. In order to switch the missions, Endeavour would necessarily have to be rolled back off Pad 39 A and be returned to wait inside the VAB since NASA now has only one functioning shuttle launch pad. The second pad, 39 B, was transferred to the Constellation program last May for launch of the Ares 1 X rocket. To accommodate the new Ares booster, Pad 39 B is being dismantled and is no longer capable of launching space shuttles.

Beutel said to me that, “NASA managers are assessing the possible options to address this. We should have a better idea where things are heading early next week”.

Just two days ago on Jan 6, I attended the rollout of Endeavour to Launch Pad 39 A during a week of uncommonly frigid weather here in Florida at the Kennedy Space Center and all systems remain go. There are no issues with Endeavour itself at this time and NASA is diligently taking care to shelter Endeavour at the pad from the cold and maintain it at a safe temperature with heaters and warm air purges. Pre-launch propellant servicing is in progress throughout the weekend.

NASA held a media briefing on Tranquility on Friday which I attended was able to observe Tranquility first hand inside the Space Station Processing Facility (see photos). The current plan is to place Tranquility inside the payload transport canister located nearby inside the facility and then transport it to the launch pad on Jan 15.

Tranquility is a new module that will house critical life support systems for the orbiting outpost as well as exercise gear important for maintaining the well being and stamina of the astronaut crew as they roam about the ISS. Tranquility will also be utilized for some science experiments. The Cupola observation module is joined to Tranquility. Both modules will be delivered to the ISS by the STS 130 crew.

Moon Rock Will Return to Space Aboard Endeavour

CREDIT: ONORBIT.COM/EVEREST

In May of last year, we followed the story of former astronaut Scott Parazynski, as he climbed Mt. Everest to collect a piece of the mountain and test out equipment for NASA. During the climb, Parazynski carried a Moon rock that was brought to the Earth by the Apollo 11 mission. Though the journey of this rock has been rather long, it is about to come to an end.

The rock, along with a piece of Mt. Everest that Parazynski collected, will travel to the International Space Station during the next Space Shuttle mission. It and the Mt. Everest rock will be displayed in the Tranquility (*cough* Colbert *cough*) module, which is part of the payload of STS-130.

Endeavour is currently scheduled to launch on February 7th, 2010 and will carry the Tranquility module, which will provide more life-support systems for the ISS, as well as a seven-windowed cupola that will be used as an observation and control room for control of the robotic arm outside the station.

Interestingly enough, the rock originated in the Sea of Tranquility on the Moon, and will be returning to be displayed inside the Tranquility module itself.

The Moon rock and piece of Mt Everest will be presented by Parazynski to STS-130 commander George Zamka this Wednesday, January 6th. You can watch the presentation on NASA TV at 3:30pm CST.

Source: NASA press release

ISS “Iron Chef” Recalls Holiday Cooking in Space

Astronaut Sandra Magnus, Expedition 18 flight engineer, prepares to eat a Christmas meal at the galley in the Zvezda Service Module of the ISS. Photo Credit: NASA

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Last year at this time, astronaut Sandy Magnus was living on board the International Space Station. When the holidays were approaching in 2008, Magnus decided it was time to spice things up a bit in the culinary department in space. “When you think about it, food is an important part of our lives,” Magnus said. “Family gatherings, celebrations and holidays all center around food, and when you invite people over it seems everyone always ends up in the kitchen. The same holds true on the space station, but you have to be able to prepare and eat food in microgravity without making a big mess!”

And now that she’s back on terra firma, have her cooking techniques changed because of her experiences in space? “I certainly appreciate gravity a lot more because your food actually wants to stay in the bowl, which is a good thing!” Magnus said.

“Sandy is our astronaut who has done the most experimenting with cooking in space,” said Vickie Kloeris, who heads NASA’s food lab at the Johnson Space Center in Houston. “She has definitely given us some ideas about advancing food preparation on the space station.”

Magnus told Universe Today there were two different levels of cooking she did in space. “One was special cooking for the holidays which took hours. My favorite was what I called ‘Italian Night,” where I took some rice, chicken, black olives, sundried tomatoes, cheese, garlic, onions and pesto and put that together. On an everyday basis it was easy to combine foods that were already prepared by Vickie and her group. My favorite everyday meal was taking black beans, tomatoes and artichokes and putting it on a tortilla with picante sauce. That was very tasty.”

Astronaut Sandra Magnus, Expedition 18 flight engineer, prepares to eat a meal at the galley in the Zvezda Service Module of the International Space Station.
Astronaut Sandra Magnus, Expedition 18 flight engineer, prepares to eat a meal at the galley in the Zvezda Service Module of the International Space Station.

The astronaut food on the ISS—while leaps ahead of the food “tubes” that early astronauts endured – still has to meet many different requirements. It has to last for long periods of time without refrigeration, have the appropriate nutritional value, it has to be appealing and tasty, and it has to be packaged to be able to be used with the food warmers and rehydration system on the ISS and space shuttle.

“There is probably on the order of 300 different foods and beverages up there when you look at all the food from the US, Russia, Europe and Japan,” said Kloeris. “We stow the food pantry style, and so the crew members are able to pull different items and they are not restricted to a certain food on a certain day.”

Astonauts often say their tastes change in space, and Magnus agreed. “Yes, it did a little bit. I noticed on my first mission that the tomatoes and eggplant that I loved on the ground, when I got on orbit it didn’t taste quite the same to me. I’m not sure exactly why – I think your sense of smell gets disrupted which of course affects your sense of taste.”

When Magnus was on the ISS, the crew size was just three. Since then the crew size has expanded to six. And when a shuttle crew visits, there can be as many as 13 astronauts to feed. How does that change how food is prepared?

“Fortunately, with the increase in crew size we have an extra food warmer or two,” Magnus said, “which is really the big issue for planning a meal because it takes about 20 minutes to heat some of the food. And so with six people you have to start perhaps a little earlier and you are using all three food warmers on board so six people can eat together.”

Astronaut Sandy Magnus with her ISS crewmates Mike Fincke (center) and Yury Lonchakov in the Harmony node of the International Space Station.
Astronaut Sandy Magnus with her ISS crewmates Mike Fincke (center) and Yury Lonchakov in the Harmony node of the International Space Station.

“When the shuttle is there we typically have family dinners, if you will, in the evenings a couple of times. The shuttle astronauts will prepare all their food in the shuttle, bag it up and bring it over and we’ll all have one big family dinner in the service module or Node 1, which ever table we decide to use.”

One of Magnus’ favorite holiday foods while on the ISS was one that many on Earth would probably agree with: frosted Christmas cookies. “We are able to bring up some personal foods, as long as they don’t need refrigeration,” Magnus said, “and I brought up some cookies and there was some icing already on board. The entire crew really enjoyed having frosted cookies for the holidays.”

For more info about Magnus’ time in space read her cooking in space journal.

Soyuz Blasts off with International Crew to build out ISS

The Expedition 22 crew poses for a group snapshot while visiting the Soyuz launch vehicle assembly facility in front of the rocket's third stage. Crew members are, from the left, Russian cosmonaut Oleg Kotov, Soyuz commander; NASA astronaut T.J. Creamer, flight engineer; and Japan Aerospace Exploration Agency astronaut Soichi Noguchi, flight engineer. Photo credit: NASA/Victor Zelentsov


An international crew of three astronauts and cosmonauts blasted off Sunday (Dec 20) at 4:52 PM EST in a Russian capsule from the bone chilling Baikonur Cosmodrome in Kazakhstan, bound for the International Space Station (ISS). The crew aboard the Soyuz TMA-17 capsule comprises Russian cosmonaut Oleg Kotov, NASA’s T.J. Creamer, and Soichi Noguchi of the Japan Aerospace Exploration Agency.

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Following a two day pursuit they will rendezvous and link up with the ISS at the Zarya module’s nadir port on Tuesday at 5:58 p.m. EST about 220 miles over South America. Then they will officially join the Expedition 22 core crew of two, ISS Commander Jeff Williams (NASA) and flight engineer Max Suraev (Russia) thereby enlarging the orbiting outposts population to five, just one person shy of the full staffing of six.

Williams and Sureav have served as the sole occupants for the last three weeks since the scheduled Dec. 1 departure of the three man Expedition 21 crew. They arrived by Soyuz capsule TMA-16 in October.

Hatches between the ISS and Soyuz will be opened about 90 minutes after the Tuesday docking, which will be carried live on NASA TV. Kotov, Creamer and Noguchi are bringing along holiday goodies just in time to celebrate the arrival of Christmas and begin their 6 month stint in space.

The pre-dawn launch occurred precisely on time at 3:52 a.m. Monday local Kazakh time and was timed to coincide with the moment Earth’s rotation carried the launch pad into the plane of the space station’s orbit. The roaring stream of flames lit up the night sky for earth bound observers for miles around.

With Soyuz Commander Kotov occupying the center seat, the capsule separated from the third stage after the thunderous 9 minute climb to space. “Everyone feels great, no problems”, Kotov reported as the capsule was safely injected into an initial earth orbit. A live internal video feed showed the crew for most of the ride to orbit, working efficiently and in a relaxed manner. Engines will be fired three more times to raise the orbit and maneuver the capsule to match the stations orbit. On Tuesday the engines will be fired for a final time to align the Soyuz for docking.

The Expedition 22 crew of five have a busy agenda ahead filled with spacewalks, shuttle arrivals, relocating equipment, attachment of new modules and ambitious science experiments

Expedition 22 Soyuz Rollout. Credit: NASA/Bill Ingalls
Expedition 22 Soyuz Rollout. Credit: NASA/Bill Ingalls

This was the first December lift off for a Soyuz since 1990 and took place in the frigid cold as the earthling observers shivered outside. The crew had been training in Baikonur for the last week and a half to complete final launch preparations.

The launch pad is the very same one used to support the historic launch of Cosmonaut Yuri Gagarin in 1961 on mankind’s first manned space flight. The Soyuz crew capsule has been in use by Russia since 1967.
Creamer is making his first space flight and is a distinguished Army aviator. This is Kotov’s 2nd flight to the ISS where he has already performed two spacewalks. Likewise it’s the 2nd flight for Noguchi, but his first on board a Soyuz. He was previously a member of the Shuttle Return to Flight crew in 2005. Three dozen Japanese journalists were on hand to document the mission, the first by a Japanese aboard a Soyuz.

Before today’s lift-off, Bill Gerstenmaier, NASA Administrator for NASA Associate Administrator for Space Operations previewed the ‘year in space’ to come. “It’s an amazing time in spaceflight. We are bringing the station crew back up to five and learning how to operate with a larger crew size. For the systems to work right that requires a lot of preparation”.

“This will be an amazing year upcoming as I stand here in Kazakhstan with the Soyuz behind me. We have a shuttle almost ready to fly from KSC and this Soyuz set to fly. 2010 will be a busy year. We’ll have as many as 6 Progress, 4 Soyuz and 5 Shuttle flights to the ISS. The shuttle will start the year by bringing up the Tranquility and Cupola modules” (read our previous article for more info).

“We have built a phenomenal research station in space which could only have been assembled by the shuttle. But now it’s time to move beyond the shuttle. After the shuttle retires we will transition to smaller rockets like the Soyuz and the Dragon”.

Wow! Astronauts on EVA, As Seen From Earth

Ralf Vandebergh’s detail of an image he took on March 21, 2009 showing astronauts working outside the ISS. Credit: Ralf Vandebergh

Remember when it was a big deal when amateur astronomers starting imaging the International Space Station as seen from Earth, showing individual modules and other parts of the space station? One of the most proficient astrophotographers in that department has now just upped the game: Ralf Vandebergh has captured images of astronauts working outside the ISS during an EVA. Vandebergh, who lives in The Netherlands, used his 10-inch Newtonian backyard telescope to capture an image of STS-119 astronauts Joe Acaba and Steve Swanson working outside the ISS to install equipment on one of the trusses during the second EVA of the mission on March 21, 2009. Vandebergh told me he has been trying to image astronauts working outside the ISS since 2007, but hasn’t been successful until now. “In all opportunities I had until now, the astronauts were not on a visible part of the station,” he said “or they were in shadow or the pass or the seeing was simply not favourable.”

Below, enjoy the video Vandebergh created about his extreme zoom-in handiwork, and his explanation of how he was able to take the images.

Nice job Ralf! Check out his website of other telescopic spacecraft image here.

“It was great luck they were working on the Earth-facing side of the port 3 truss on this spacewalk,” Vandebergh said. “Why? This truss is a reasonable open structure, which means it appears a little bit transparent as seen from the Earth with the black space as a background. This makes this particular truss (and the Starboard 3 truss on the other side) look considerably darker then the other trusses in the vicinity.
When a high reflective white suited spacewalker works in front of this truss, there is a very good
chance you receive light from it on your CCD. By following very precisely the live station camera’s–
and helmet cam recordings on NASA TV, I knew exactly were to expect them on the image.”

What Would NASA Do with an Added Shuttle Flight?

Space Shuttle Atlantis sits poised for the STS 129 launch from Pad 39 A on 16 November 2009. Atlantis would likely fly a proposed new flight as STS-135. Credit: Ken Kremer

The end of the Space Shuttle Era is rapidly approaching and with it some urgent questions including, “How will the US support continued use of the ISS?” and “What would NASA do if granted an additional shuttle flight?”

Currently, only 5 flights remain on the manifest and right now, the final shuttle flight is set for September 2010. This deadline and policy was decreed by the Bush Administration and simultaneously coincides with the end of ISS assembly and the end of the Fiscal 2010 budget year. Thus far the Obama Administration has not announced any policy changes despite recurring questions from Congress and the press as the retirement approaches.
ISS.  Credit: NASA

Then comes the big “gap” in US human spaceflight launch capability between the looming shuttle shutdown and the debut of the Orion capsule. Orion will not be ready until 2015 or later. So there will be a minimum 5 year “gap” when NASA cannot launch its own astronauts or even unmanned cargo supply vessels to the International Space Station which will operate until at least 2015. Hence the practical questions from the US side on “How to re-supply the ISS?”

NASA will then be utterly dependent on Russia to launch US astronauts to the ISS at a cost of some $50 million per Soyuz seat. Several companies are receiving NASA funding under the COTS program to develop cargo up-mass vehicles to the ISS and are also exploring crewed options.

For the most part, the general public is unaware of these facts. Congress has been fully aware of this quandary since 2004 when President Bush announced new NASA goals as part of the VSE or “Vision for Space Exploration” to return to the Moon and beyond to Mars. NASA’s budget has been cut in the intervening years and the “gap” has grown longer. Insufficient funding from Washington, DC directly caused a slower development pace for Orion and the Ares rocket.

One much discussed “gap” closing measure is to slightly extend the deadline for closing out the shuttle program by adding 1 or more new flights. This action requires a direct decision soon from President Obama and enabling funding from Congress.

If granted the authority to extend the Shuttle program with an additional flight, NASA officials at a very high level have already decided on paper what such a mission would entail. Bill Gerstenmaier, NASA Associate Administrator for Space Operations says that the team has done some planning for what is dubbed a ‘contingency’ flight. “It sits on the manifest as a ‘contingency’ if we need to fly it. It would be prudent to have an MPLM (pressurized Multi-purpose logistics module) in there to carry spares and restock station. We originally wanted to have a back up shuttle available in case we had a situation where we needed to do a contingency crew support to keep them in orbit for some period of time.”

At the Kennedy Space Center (KSC), I spoke with Scott Higginbotham about the details of the ‘contingency’ flight. Scott is a shuttle payload mission manager at KSC, most recently for STS-129 . He told me, “If there was to be another mission then the plan is to fly another MPLM. We have two more MPLM’s but only one is flight worthy. For the call up mission, the possible new last flight, we would fly ‘Raffaello’. But NASA needs more money and work modifications to get ‘Raffaello’ ready and up to speed”.

‘Donatello’ MPLM module inside the Space Station Processing Facility at KSC.  This module is being utilized for spare parts. Outer shielding is being removed.   Credit: Ken Kremer
‘Donatello’ MPLM module inside the Space Station Processing Facility at KSC. This module is being utilized for spare parts. Outer shielding is being removed. Credit: Ken Kremer

NASA has three MPLM’s total, named ‘Leonardo’, ‘Raffaello’ and ‘Donatello’ after significant engineers in Italian history and the Ninja turtles too. All were built by Alenia in Italy under contract to the European Space Agency (ESA). ‘Leonardo’ will be permanently attached on the current last flight, STS 133, after “beefing up the outside to provide extra micrometeoroid debris protection for the module. That will allow it to stay on orbit,” according to Gerstenmaier. ‘Leonardo’ would then be redesignated as a Permanent Multipurpose Module, or PMM. Initially it will be docked at a space facing port on the Harmony connecting node.

“Since the MPLM’s only go up on short sortie missions, their shielding is not as thick as the other station elements,” said Higgenbotham. ‘Leonardo’ flies once more in March 2010 and will then be modified to add shielding. “Donatello will never fly. It’s become our spare parts man to be raided if needed.” Alenia also constructed the Tranquility and Cupola long duration modules I observed recently at a ceremony inside the KSC Space Station Processing Facility (LINK). While inside the station facility, I inspected all three of the MPLM’s (see photos).

“Because of the limited number of shuttle missions left and budget constraints, it makes more sense financially to just fly ‘Leonardo’ over and over again. ‘Raffaello’ is being maintained just in case” added Higgenbotham. “We know that we would like to fly more supplies to the station and bring things home. But whether we actually go prepare ‘Raffaello’ for that contingency mission is being discussed. So we are doing some of the advanced exercises in case we get turned on.”

Leonardo’ MPLM module inside the Space Station Processing Facility at KSC built by Alenia under contract to ESA and the Italian Space Agency (ASI).  This module will be left attached to the ISS on the last scheduled shuttle mission, STS 133. It will be modified with additional shielding for protection against strikes by micrometeoroids. Note grapple fixture at top. Each MPLM is 21 feet long, 15 feet in diameter, weighs 4.5 tons, and can deliver up to 10 tons of cargo to the ISS.  Credit: Ken Kremer
Leonardo’ MPLM module inside the Space Station Processing Facility at KSC built by Alenia under contract to ESA and the Italian Space Agency (ASI). This module will be left attached to the ISS on the last scheduled shuttle mission, STS 133. It will be modified with additional shielding for protection against strikes by micrometeoroids. Note grapple fixture at top. Each MPLM is 21 feet long, 15 feet in diameter, weighs 4.5 tons, and can deliver up to 10 tons of cargo to the ISS. Credit: Ken Kremer

“We know the big picture of what would be included. It would include science experiments, spare parts, food, clothing, station consumables and what the crew needs to get by day to day”, he said. “So if I have the ability to launch another MPLM mission, then I can loft thousands of pounds that I don’t need to pay a commercial vendor or the Russians to do,” Higgenbotham explained. “We can save them for other items that may break down in the future.”

Large outside items would probably not go up on that mission. “The expectation is we are going to clear the house of all large external parts by the time the last mission flies. All those are planned for going up on the already manifested missions. We have analyzed what’s needed over the lifetime of the station if we extend out to 2020,” said Higgenbotham.

The station must be continually resupplied with spare parts and logistics for its remaining lifetime whether it’s 2015 or longer to 2020 which is far beyond the upcoming retirement of the Space Shuttle.

“NASA has one External Tank (ET) already built for the ‘contingency’ mission” according to Mike Moses, shuttle integration manager at KSC. Two others exist only in pieces he told me. Since it takes 3 years to build a new ET from scratch, there would be some launch delay for any further missions beyond the possible ‘contingency’ flight.

The future goals of NASA and US human and robotic spaceflight hangs in the balance awaiting critical choices by President Obama and political leaders in Washington, DC. At this point, there is no indication of when President Obama will make a decision on goals or funding. With each day’s delay, the chances to extend the shuttle program are diminished as US manufacturing production lines are shut down, more shuttle workers are layed off and their high technology skills are lost.

About 7000 shuttle workers will lose their jobs at KSC and many more across the US as the Space Shuttle program is terminated in the midst of the current recession.

‘Space Beer’ Available for Purchase to 250 People

Space Barley beer, brewed by Sapporo from space-grown barley, will be available to 250 people selected from an online lottery. Image Credit: Sapporo

The wait is finally over for those who have been wanting to enjoy a tipple of Sapporo’s “Space Barley” beer, a beer brewed from space-grown barley. Until December 24th, Sapporo will have an online lottery for orders of a six-pack. 250 people will be chosen from the lottery, and allowed to purchase the beer. As with everything flown into orbit, space beer isn’t cheap though: the six-packs will run 10,000 yen apiece, which converts to about $110, or almost $19 a bottle.

This is the second lottery that the Japan-based Sapporo has held for access to the beer, though last time around there were only 60 people chosen to taste the beer. The name of the beer really says it all – Space Barley beer is made from barley descended from the barley grown on the ISS during a 5-month experiment back in 2006. That original barley isn’t still being used, though: the current brew is made from the fourth generation of the stock grown on the ISS.

Sapporo teamed up with a researcher from Japan’s Okayama University, Manabu Sugimoto, who has been taking part in a Russian study to grow edible plants in space. Peas, lettuce and wheat have all been grown and harvested in space as well. Barley was chosen because it is a rather hardy plant that will grow in a variety of environments at a range of temperatures. Sapporo made it into beer because, well, what else are you going to do with leftover barley from space?

If you think that the beer will taste different, think again: Sapporo spokesman Yuki Hattori said Monday, “Some people may expect the space beer to taste very different, but its selling point is that it’s the same.” It shouldn’t taste any different indeed, given that an analysis of the DNA from the barley grown on the ISS showed no difference from plants grown right here on Earth.

Ian O’Neil had the brilliant idea of using recycled space urine from the ISS to make the space beer more “complete.” If that were the case, though, I’m sure the company wouldn’t have had over 2,000 people enter the lottery by last Sunday. If you want to get in on the orders, you might have to be able to read Japanese. The only link I could find to the internet lottery is in Japanese.

Though it may be a bit of an advertising gimmick, the proceeds from this latest sale of Space Barley will all go to Okayama University with the aim of promoting children’s education and space science research.

Hopefully between now and the fifth generation brewing of this beer, the ISS can grow some space peanuts to go along with the drink, or at least use some of the harvested wheat to make some space pretzels shaped like little stars.

Source: ABN Newswire

Butterflynauts Emerge from Cocoons on ISS

Butterflies on the ISS. Credit: BioEdOnline. Click to see more.

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Four “butterflynauts” have emerged on the International Space Station. They are part of a suitcase sized educational experiment that was rocketed to space on Nov. 16 on space shuttle Atlantis as part of the STS-129 mission. Students of all ages and the public are invited to follow the tiny crew’s development from larvae to adult butterflies in the microgravity of space.

In over 100 classrooms across the U.S., students have set up habitats and are replicating the space experiment. Their objective is to compare the growth and behavior of ground-based butterfly larvae and adult butterflies with those living in the microgravity environment of space. New pictures and videos and Powerpoint slides are available almost daily.

A free Butterflies in Space teacher’s guide can be downloaded from BioEd Online at the Butterflies in Space website here. The project is sponsored by National Space Biomedical Research Institute.

Initial results show that there appears to be no difference in the development rates of these butterflies in a microgravity environment as compared to Earth’s gravity, which is a fairly significant finding. While microgravity environment has obvious impacts on human health and physiology, relatively little is known about how microgravity whould effect human growth and development. While there are major differences between humans and butterflies, basic cellular divisions in follow similar processes. Therefore, the success of the butterfly experiment in space indicates that a human embryo could potentially survive and develop normally in space even in the absence of gravity.

ISS Temporarily Down to Crew of 2

Following today’s departure of the three man crew of Expedition 21 aboard the Soyuz TMA 15 capsule, staffing on the International Space Station (ISS) is now temporarily reduced to a skeleton crew of just 2 men for the first time since July 2006. The ISS had hosted a complete 6 person and truly international crew complement for the first time ever since its inception, starting in May of this year.

Soyuz Commander Roman Romanenko (Russia), European Space Agency Flight Engineer Frank De Winne (Belgium) and Canadian Space Agency Flight Engineer Bob Thirsk floated into their three segment Soyuz return capsule on Monday evening, Nov 30. After powering up systems and a farewell ceremony the hatches were closed at 7:43 PM EST. They disengaged hooks and latches and then physically undocked from the Zarya module at 10:56 PM over Mongolia after spending 188 days in space. De Winne was the first European commander of the ISS. All prior commanders have been either Russian or American. Romanenko is a second generation cosmonaut. His father Yuri, flew his first mission in 1980. Thirsk is the first long duration Canadian astronaut.

Soyuz TMA 15 landing track. Credit: NASA TV
Soyuz TMA 15 landing track. Credit: NASA TV

Retro rockets were fired for 4 min 19 sec at 1:26 AM Tuesday morning to initiate the de-orbit braking maneuver for the fiery plunge of atmospheric reentry. 19 minutes later the three Soyuz segments pyrotechnically separated at an altitude of 87 miles. The Soyuz barreled backwards as it hit the earth’s atmosphere at 400,000 ft above Africa and the crew experienced maximum G forces. The three parachuted to a safe touchdown strapped inside their Soyuz descent module onto the snowy steppes of Kazakhstan at 2:15 AM Tuesday Dec 1 (1:15 PM Kazakhstan local time) thereby concluding a mission that began with a May 27 blast off. Russian search and recovery forces drove to the ice cold landing zone at Arkalyk to greet and assist the trio in opening the hatch, exiting the craft, readapting to earth’s gravity and returning to Star City. This was the first December landing of a Soyuz since 1990.

Poor icy weather and low clouds grounded the normal recovery force of 8 helicopters. The capsule landed right on target and in an upright configuration. Recovery forces sped quickly into place. Romanenko was first to depart out the top hatch of the capsule, followed by Thirsk and De Winne. They were carefully extracted by the ground based recovery team and immediately assisted into stretchers while smiling broadly and waving to the crowd. Then they were swiftly slid into all terrain vehicles larger than their capsule for the initial leg of the ride back to Russia. Flight surgeons confirmed the health of the crew who are eager to re-unite with family and friends and earthly comforts.

The Expedition 22 core crew of NASA Commander Jeff Williams and Russian Flight Engineer Max Suraev remain as the sole two occupants for about three weeks until the Dec 23 arrival of the next international crew comprising Russian cosmonaut Oleg Kotov, NASA’s T.J. Creamer, and Soichi Noguchi of the Japan Aerospace Exploration Agency who head to the station Dec. 20 on the Soyuz TMA-17 craft from the Baikonur Cosmodrome. Williams and Suraev arrived by Soyuz capsule TMA -16 in October.

US astronaut Nicolle Stott rounded out the six person ISS crew until her departure just days ago on Nov 25 aboard shuttle Atlantis (link) left just five people on board. She spent 91 days aloft conducting science experiments and has the distinction of being the last ISS resident to hitch a ride up and down on a shuttle. Future crew rotations are planned via Russian Soyuz rockets since the shuttle will be retired by late 2010 and NASA’s Ares / Orion launch system won’t debut until 2015 or later.

Watch video of the shuttle “belly flip” as it arrives at the station.

During 7 days of joint operations in late November, the ISS boasted an ethnically diverse population of 12 humans from the combined crews of STS 129 Atlantis and the resident ISS members from two docked Soyuz capsules, just shy of the record 13 occupants. With all the comings and goings of assorted manned and robotic spaceships lately it’s been an exceptionally busy time that required careful planning and traffic coordination among the world’s space agencies.

The 800,000 pound station is now 86% complete and thus far larger and more complex compared to the last instance of a two person contingent. Since the 2005 Return to Flight of the shuttle following the Columbia accident, several habitable modules (Harmony, Columbus, Kibo, Poisk), truss segments, radiators, stowage platforms and giant solar arrays have been attached. All this has vastly expanded the astronauts and cosmonauts daily responsibilities of both maintaining station systems and carrying out a much expanded scientific research program.

Bill Gerstenmaier, NASA’s chief of space operations, said the ISS partners have carefully looked at the operational challenges of this three week interlude to make sure “there is not a lot of activity going on then, other than some software uploads. We moved all the major activities that were occurring to other periods when there will be more crew. We are prepared and ready to cut back a little on operations but still be able to do a little bit of science research with just two crew members on orbit.”

Three space walks by the Atlantis crew helped pave the way for the next shuttle ISS assembly flight in February 2010, designated STS 130, which will haul up the long awaited Tranquility and Cupola modules and which I recently observed close up at the ESA to NASA hand off ceremony inside the Space Station Processing Facility (link) (SSPF) at the Kennedy Space Center.

Atlantis delivered two large pallets loaded with 15 tons of critical spare parts that will help extend the working lifetime of the ISS and serve as a hedge against on orbit equipment failures ahead of the fast approaching deadline when the space shuttle is no longer available to loft such bulky gear.

Only 5 flights remain until the shuttle era ends late in 2010. The Orion capsule will not debut for at least five years and perhaps longer, dependent on funding decisions in Washington, DC. The station will then be completely dependent for supplies and equipment on Russian, European and Japanese cargo vehicles. Test flights of US commercial ISS transport vessels begin next year.

Not until another three person Soyuz blasts off next April 2010, will the station return to a full team of six. But science research will be full speed ahead.