By Bob Granath NASA’s Kennedy Space Center, Florida
Kennedy Space Center Director Bob Cabana recently spoke to spaceport employees about plans for 2018. The coming year will be highlighted by NASA’s Commercial Crew Program (CCP) partners preparing to launch test flights for crewed missions to the International Space Station.
“This is going to be an awesome year for us,” Cabana said speaking to center employees on Jan. 11, in the Lunar Theater of the Kennedy Space Center Visitor Complex’s Apollo Saturn V Center. “The number one priority this year is we’ve got to get commercial crew flying to the International Space Station.”
TOKYO (JAXA PR) — On January 24, 2018, Japan Aerospace Exploration Agency (JAXA) and the National Aeronautics and Space Administration (NASA) met to exchange their views on space exploration. The agencies signed a joint statement affirming their strong mutual interest in continued future cooperation in space exploration.
Both agencies have established a strong and committed partnership throughout the many years of cooperation in all mission areas, including human exploration, Earth and space science, fundamental aeronautics, and especially through the International Space Station (ISS) Program.
Elon Musk has a new pay package with Tesla Motors that could net him $55 billion over the next decade if the company reaches a series of extremely ambitious targets, according to press reports. If he doesn’t reach those goals in 10 years, he could end up with nothing.
That might seem like a crazy plan even for Musk, who is known for taking great risks. But, it makes sense when you consider the billionaire’s ultimate long-term goal: to develop a transportation system to facilitate the establishment of human colonies on Mars.
Musk has said he is dedicating his personal wealth to that objective. And although his net worth is estimated at $21 billion, actual profits from his various businesses have been elusive.
CLEVELAND (NASA PR) — When astronauts someday venture to the Moon, Mars and other destinations, one of the first and most important resources they will need is power. A reliable and efficient power system will be essential for day-to-day necessities, such as lighting, water and oxygen, and for mission objectives, like running experiments and producing fuel for the long journey home.
That’s why NASA is conducting experiments on Kilopower, a new power source that could provide safe, efficient and plentiful energy for future robotic and human space exploration missions.
I realize it’s a bit late, but here’s a look back at the major developments in space in 2017.
I know that I’m probably forgetting something, or several somethings or someones. Fortunately, I have eagle-eyed readers who really seem to enjoy telling me just how much I’ve screwed up. Some of them a little too much….
So, have at it! Do your worst, eagle-eyed readers!
The work we do, which will continue in 2018, helps the United States maintain its world leadership in space exploration and scientific discovery. Launches, discoveries and more exploration await in the year ahead.
The world’s most powerful booster is set to make a flight test sometime in January. If all goes well, 27 first stage engines will power the new booster off Pad 39A at NASA’s Kennedy Space Center. The three first stage cores will peel off and land for later reuse while the second stage continues into space.
An international fleet of spacecraft will be launched in 2018 to explore the Moon, Mars, Mercury and the Sun. Two sample-return spacecraft will enter orbit around asteroids while a third spacecraft will be launched to search for asteroids that contain water that can be mined.
NASA will also launch its next exoplanet hunting spacecraft in March. And the space agency will ring in 2019 with the first ever flyby of a Kuiper Belt object.
And, oh yes, Elon Musk is launching his car in the direction of Mars. (more…)
Last month NASA officials gave a series of presentations about the space agency’s deep-space exploration plans to the NASA Advisory Council’s Human Exploration and Operations (HEO) Committee. I have excerpted slides from those presentations to provide an overview of what the space agency is planning. (more…)
NASA is seeking “proposals for trade studies and design, fabrication, and testing of critical components and subsystems for acquisition and processing of extraterrestrial resources into water, oxygen, and fuel.”
The broad agency announcement (BAA) came in an appendix to the space agency’s Next Space Technologies for Exploration Partnerships 2 (NextSTEP-2) program, which has been working with commercial companies on facilitating space exploration and development beyond Earth orbit.
A recent Inspector General report, NASA’s 2017 Top Management and Performance Challenges, finds the space agency is facing serious challenges with its deep space exploration effort. The space agency is dealing with slipping schedules, constrained budgets, and thin funding reserves as it seeks to complete development of the Space Launch System, Orion spacecraft and Exploration Ground Systems. NASA also has only high-level plans for other systems that will be required to send astronauts on useful deep-space missions.
WALLOPS ISLAND, Va. (NASA PR) — Landing on Mars is difficult and not always successful. Well-designed advance testing helps. An ambitious NASA Mars rover mission set to launch in 2020 will rely on a special parachute to slow the spacecraft down as it enters the Martian atmosphere at over 12,000 mph (5.4 kilometers per second). Preparations for this mission have provided, for the first time, dramatic video of the parachute opening at supersonic speed.
PASADENA, Calif. (NASA PR) — When NASA’s Mars Pathfinder touched down in 1997, it had five cameras: two on a mast that popped up from the lander, and three on NASA’s first rover, Sojourner.
Since then, camera technology has taken a quantum leap. Photo sensors that were improved by the space program have become commercially ubiquitous. Cameras have shrunk in size, increased in quality and are now carried in every cellphone and laptop.
ANN ARBOR, Mich. (University of Michigan PR) — An advanced space engine in the running to propel humans to Mars has broken the records for operating current, power and thrust for a device of its kind, known as a Hall thruster.
The development of the thruster was led by Alec Gallimore, University of Michigan professor of aerospace engineering and the Robert J. Vlasic Dean of Engineering.
Since Elon Musk unveiled his Big [Expletive] Rocket (BFR) in Adelaide last month, there has been a lot of analysis of the engineering aspects. Musk’s Ask Me Anything session on Reddit was an engineer’s dream, with the billionaire providing detailed answers about the Raptor engines, thrust to weight ratios and a host of other technical issues.
Amid all the technical talk, there has been little attention paid to what a giant leap this venture is for Musk, SpaceX and possibly the entire human race. Not only will BFR be larger and more powerful than any other rocket ever built, the audacious things Musk wants to do with it – ranging from point to point transportation on Earth to satellite delivery to sending colonists to the moon and Mars – are on a scale never before attempted. They are certainly beyond anything contemplated by the world’s space agencies.