A Russian Soyuz rocket successfully launched a new crew to ISS today.
As a Russian publicity stunt, they are carrying the Olympic torch up to ISS, which will be brought back by the returning crew on Sunday.
Sierra Nevada provides an update on the condition of its Dream Chaser test vehicle after this weekend’s glide flight and bad landing.
SNC has not yet decided whether to repair the Dream Chaser test craft, which does not use the same landing gear the orbital vehicle would use. Investigating what went wrong will take “a couple of weeks,” Sirangelo estimated. He said the vehicle, which is now in a hangar in Mojave, Calif., was “fully intact” after the crash.
“The pressure vessel was completely pristine, the computers are still working, there was no damage to the crew cabin or flight systems,” Sirangelo said. “I went inside it myself and it was perfectly fine. There was some damage from skidding.
“We learned everything we wanted to on this test, and learned more than we expected to learn,” Sirangelo said. “We believe we’ve got most of the data we need [but] I can’t honestly say, I just don’t know yet. It’s not going to affect our schedule in the long term [but] It might affect whether we do another free flight test this year or next year. We’re still assessing that.”
The company also claims that the flight met the requirements of a $15 million NASA milestone payment, since the goals of the flight were to test the vehicle’s flight capabilities, not its landing gear. (The failed landing gear used will not be the gear used on the final flight vehicle.)
They have scheduled a press conference for tomorrow. Stay tuned.
Lockheed Martin successfully powered up the first Orion capsule last week.
During the test, operators in the Test Launch and Control Center (TLCC) introduced software scripts to the crew module’s main control computers via thousands of wires and electrical ground support equipment. During this process, the foundational elements, or the “heart and brains” of the entire system were evaluated. The main computers received commands from the ground, knew where to send them, read the data from different channels, and successfully relayed electrical responses back to the TLCC. The crew module power systems will continue to undergo testing for six months as additional electronics are added to the spacecraft.
It is a good thing that NASA has finally gotten this far with this very expensive capsule. However, pay no attention to their claims that the capsule “is capable of taking humans farther into space than they’ve ever gone before.” Any long journey it takes will be quite limited in scope. Humans can’t really travel beyond lunar orbit in just a capsule. You need a real interplanetary spaceship for that, and Orion does not fit this bill.
The investigation into the spacesuit leak in July is now awaiting the return of equipment from ISS.
The station astronauts removed a cooling system pump and small contaminants found in the garment’s Primary Life Support System plumbing. The old fan pump separator and the preserved contaminants, including a 1-cm. piece of plastic, will return to Earth aboard Russia’s TMA-09M crew transport late Nov. 10 with Parmitano, NASA astronaut Karen Nyberg and ISS Russian commander Fyodor Yurchikhin. The hardware and contaminants will then be flown by NASA transport from the Kazakh landing site to Johnson Space Center, where a Mishap Investigation Board (MIB) hopes to quickly complete its probe of the worrisome incident.
Though it appears they have narrowed the problem to a small number of components, the need to return these components to Earth illustrates an overall design flaw with the space spacesuit. When the shuttle was flying regularly these components were easy to return to Earth, which is why NASA designed its suit for maintenance on the ground. Now that the shuttle is gone, however, it is difficult to get components returned, which makes spacesuit maintenance difficult if not impossible.
Spacesuits need to be repairable in space. If you are orbiting Mars and one fails, you can’t call in a repairman from Earth to fix it.
Planning the first launch abort test of the Dragon capsule.
The in-flight abort test will take place along Florida’s space coast. During the test, a Dragon spacecraft will launch on a standard Falcon 9 rocket and an abort command will be issued approximately 73 seconds into the flight. At that point, the spacecraft will be flying through the area of maximum dynamic pressure, or Max Q, where the combination of air pressure and speed will cause maximal strain on the spacecraft.
Dragon will be outfitted with about 270 special sensors to measure a wide variety of stresses and acceleration effects on the spacecraft. An instrumented mannequin, similar to a crash test dummy, also will be inside. The spacecraft’s parachutes will deploy for a splashdown in the Atlantic, where a ship will be pre-positioned for simulated rescue operations. The test spacecraft will be returned to Port Canaveral by barge so data can be retrieved and incorporated into the system’s design.
The test is presently scheduled for the summer of 2014.
Today it was announced that SpaceX has signed an agreement with NASA’s Stennis Space Center to test a new methane engine there beginning in 2014.
This story is significant in two ways:
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In an engineering test, LADEE successfully used a laser to beam information back from the Moon this past weekend.
Lasers could enhance space communications and lead to radical changes in spacecraft design. Today’s spacecraft communicate with radio, but radiofrequency wavelengths are so long that they require large dishes to capture the signals. Laser wavelengths are 10,000 times shorter than radio, the upshot being that a spacecraft could deliver much more data then even the best modern radio system. For scale, NASA says that the Lunar Atmosphere and Dust Environment Explorer (LADEE) spacecraft that’s carrying this laser experiment would take 639 hours to download an average-length HD movie using ordinary S-band communications. LLCD could download the film in less than eight minutes.
The next Dragon flight has now been scheduled for no earlier than February 11.
The next flight of SpaceX’s Dragon has been realigned to a February 11, 2014 NET (No Earlier Than) launch date. The launch will mark Dragon’s first ride on the upgraded Falcon 9 v.1.1 rocket, potentially sporting landing legs, as Elon Musk plans his next attempt at proving the rocket’s ability to return its stages back to Earth for reuse.
SpaceX must first launch two commercial satellites with the upgraded Falcon 9 before its NASA flight. Also, 2014 will be a very business year for the rocket, as it is scheduled to send three cargo missions to ISS plus launch eight commercial satellites.
The first free flying glide test of the Dream Chaser test vehicle is only days away.
The test had been delayed because of the government shutdown.
The winners of the “What would you send to ISS?” contest have been announced.
The contest was asking for proposals from the public for science research. Though the winner’s proposal, imaging the auroras in real time, is interesting, I think the runner-up who proposed building a nanosat factory on ISS to be far more exciting.
The government shutdown has put flight testing of Dream Chaser on hold.
It appears that the decision to do these flight tests at Dryden is the problem. As a NASA facility, it has been shut down. If the flight tests had instead been arranged at a private facility, Dream Chaser could still be flying.
