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Tethers Unlimited, Inc. (TUI) announced that it has signed a Public-Private Partnership with NASA to deliver a HYDROS™ propulsion system for a CubeSat mission. Concurrently, TUI has signed an associated contract to provide three HYDROS thrusters sized for Millennium Space Systems’ (MSS) ALTAIR™ class microsatellites to support three different flight missions. Total contract value for the two efforts is $2.2M.

The HYDROS propulsion system uses in-space electrolysis of water to generate hydrogen and oxygen gas, which it then burns in a bipropellant thruster. This water-electrolysis method allows small satellites to carry a propellant that is non-explosive, non-toxic, and unpressurized. The hydrogen and oxygen generated on-orbit will enable high-thrust and high-fuel-efficiency propulsion so these small satellites can perform missions requiring orbital agility and long-duration station-keeping.

The partnership with NASA is a cost-sharing program funded under NASA’s Space Technology Mission Directorate’s “Utilizing Public-Private Partnerships to Advance Tipping Point Technologies” Program. In this effort, TUI will conduct lifetime and environmental testing of prototypes of HYDROS systems sized for CubeSats and microsatellites and then deliver a flight unit HYDROS thruster intended for testing on a CubeSat mission as part of NASA’s Pathfinder Technology Demonstration Program, at Ames Research Center, Moffett Field, California.

The purchase of HYDROS thrusters by MSS represents a significant commercial customer investment that will enable the HYDROS Public-Private Partnership to develop and deliver a transformative propulsion technology meeting needs for both NASA and commercial small satellite endeavors.

“We are honored to have the opportunity to partner with NASA and Millennium Space Systems to demonstrate this revolutionary thruster technology,” said Dr. Rob Hoyt, TUI’s CEO and Chief Scientist. “Traditionally it has been very difficult to launch small satellites with propulsion capabilities due to the risks that standard propellants such as hydrazine pose to the launch vehicle’s primary payload. HYDROS will enable highly-maneuverable satellites to launch as secondary payloads without posing a significant risk to primary payloads. In the future, when asteroid and lunar mining efforts begin to provide in-situ resources, the HYDROS technology will enable use of the water ice available on asteroids and the Moon to propel the spacecraft, equipment, and resources needed for a robust in-space economy.”

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China and the US; tensions are mounting and China’s new Quantum Satellite is aiding more fuel to the flames.


By: James Holbrooks (UndergroundReporter) Beijing — Only days after completing production of the largest amphibious aircraft ever built, China has just revealed plans to launch the world’s first satellite designed to conduct quantum experiments in space — a move that could one day lead to a highly secure “orbital internet.”

Assuming the initial satellite performs well, as many as 20 additional craft would follow in the effort to create a new category of communications network. Chinese researchers believe their work could ignite a space race as other nations move to refine the technology.

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All that I can say is “WOW!”


CHINA is on the brink of launching a groundbreaking new satellite capable of conducting quantum experiments in space, leading some to predict it will usher in the beginning of a new space race.

The world will be watching very closely after the Chinese-led satellite launches in August. If it proves successful in carrying out the quantum experiments, China is expected to follow it with many more in a bid to create a super secure network that uses an encryption technique based on the principles of quantum communication.

The reason world powers will be paying such close attention is that quantum-enabled spacecrafts are able to provide communication pathways that are completely unhackable. While the technology has been trialled on the ground over short distances, the capability to do so across the globe would be a huge game changer — it holds the promise of a world with completely secure digital communication.

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Chinese Government launches in the coming weeks their new Quantum Satellite which advances their networks, communications, etc. The question remaining is with Chinese Government backed hackers; what will they do on this technology.


Discussion in ‘China & Far East’ started by onebyone, Jul 27, 2016 at 8:26 PM.

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Nice and a big deal.


[Via Satellite 07-21-2016] Space Systems Loral (SSL) has received $20.7 million from the U.S. Defense Advanced Research Projects Agency (DARPA) to design and build robotic arm flight hardware for the first phase of the agency’s Robotic Servicing of Geosynchronous Satellites (RSGS) program. SSL is receiving the funds through MDA US Systems, a division of MDA that SSL manages, and is working with the U.S. Naval Research Laboratory (NRL), which is the prime contractor managing the program.

The contract calls for two complete robotic arm systems capable of capturing and berthing with satellites that were not previously designed for docking. The robotic arms would each have multiple joints enabling dexterous movement, with the ability to carry and use multiple generic and mission-specific tools. Building on contracts SSL received in both 2012 and 2013 for prior DARPA research into space robotics, the total contract value awarded now stands at more than $40 million. The contract could grow further if all remaining options are exercised.

The goal of the RSGS program is to cooperatively inspect, capture, reposition, repair, and upgrade geosynchronous spacecraft. DARPA plans to take the hardware and software developed through RSGS and integrate it into a commercially owned and operated servicing vehicle to provide on-demand servicing in space.

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NASA’s Space Technology Mission Directorate (STMD) worked with two private firms to develop advanced structures for high power solar arrays that are stronger, lighter, and package more compactly for launch. This technology investment furthers the agency’s deep space exploration goals and aids the commercial communications satellite industry, the provider of direct-to-home television, satellite radio, broadband internet and a multitude of other services.

The Roll Out Solar Array (ROSA) is one of the options eyed by NASA that could power an advanced solar electric propulsion spacecraft that makes possible such endeavors as the agency’s Asteroid Redirect Mission—plucking a multi-ton boulder from an asteroid’s surface, and then maneuvering that object into a stable orbit around the moon for human inspection and sampling.

Tapping into ROSA technology allows the conversion of sunlight into electrical power that drives the ion thrusters of a solar electric propulsion spacecraft. ROSA is expected to enable a number of space initiatives and is a cost-saving plus to transport cargo over long distances beyond the Earth.

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3dp_mis_logo_madeinspace

California’s space technology company Made In Space, currently preparing their second zero gravity 3D printer called the Additive Manufacturing Facility for the International Space Station, will be playing a key role in a NASA project that could completely revolutionize manufacturing in space. They will be partnering with Northrop Grumman and Oceaneering Space Systems on Archinaut, a 3D printer capable of working in the vacuum of space that will be equipped with a robotic arm. Archinaut is scheduled to be installed on an external space station pod and will be capable of in-orbit additive manufacturing, the fabrication and assembly of communications satellite reflectors or the repair on in-orbit structures and machinery.

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3D printing satellites in outer space might sound like the stuff of sci-fi movies, but that’s exactly where the aerospace industry’s biggest players are heading.

More than just a cool gimmick, 3D printing could help save companies money when launching satellites into space by building parts of them there.

“If you think of challenges in getting a satellite into orbit, if you think of major antennas, the fold out antennas we have, the ability to print something in space and deploy it from space is really interesting,” Andy Anderson, deputy chief technology officer at Airbus, told CNBC in an interview at the Farnborough air show on Monday.

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All seems to be on schedule this time for China’s Quantum Satellite Launch in the next few weeks. Google, hope you’re ready.


China will be launching its quantum satellite next month, answering longstanding questions about whether or not a global quantum network is feasible.

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