News from Aerospace: XS-1 Experimental Spaceplane

northrop-grumman-xs-1-spaceplaneThe race to produce a new era or reusable and cost-effective spacecraft has been turning out some rather creative and interesting designs. DARPA’s XS-1 Spaceplane is certainly no exception. Developed by Northrop Grumman, in partnership with Scaled Composites and Virgin Galactic, this vehicle is a major step towards producing launch systems that will dramatically reduce the costs of getting into orbit.

Key to DARPA’s vision is to develop a space-delivery system for the US military that will restore the ability of the US to deploy military satellites ingeniously. In a rather ambitious twist, they want a vehicle that can be launched 10 times over a 10-day period, fly in a suborbital trajectory at speeds in excess of Mach 10, release a satellite launch vehicle while in flight, and reduce the cost of putting a payload into orbit to US$5 million (a tenth of the current cost).

XS-1_1Under DARPA contracts, Boeing, Masten Space Systems, and Northrop Grumman are working on their own versions of the spaceplane. The Northrop plan is to employ a reusable spaceplane booster that, when coupled with an expendable upper stage, can send a 1360 kgs (3,000 pounds) spacecraft into low Earth orbit. By comping reusable boosters with aircraft-like operations on landing, a more cost-effective and resilient spacecraft results.

In flight, the Northrop version of the XS-1 will take advantage of the company’s experience in unmanned aircraft to use a highly autonomous flight system and will release an expendable upper stage, which takes the final payload into orbit. While this is happening, the XS-1 will fly back to base and land on a standard runway like a conventional aircraft, refuel, and reload for the next deployment.

Spaceshiptwo-580x256Northrop is working under a $3.9 million phase one contract with DARPA to produce a design and flight demonstration plan that will allow the XS-1 to not only act as a space launcher, but as a testbed for next-generation hypersonic aircraft. Meanwhile Scaled Composites, based in Mojave, will be in charge of fabrication and assembly while Virgin Galactic will handle commercial spaceplane operations and transition.

Doug Young, the vice president of missile defense and advanced missions at Northrop Grumman Aerospace Systems, had this to say about the collaboration:

Our team is uniquely qualified to meet DARPA’s XS-1 operational system goals, having built and transitioned many developmental systems to operational use, including our current work on the world’s only commercial spaceline, Virgin Galactic’s SpaceShipTwo. We plan to bundle proven technologies into our concept that we developed during related projects for DARPA, NASA and the U.S. Air Force Research Laboratory, giving the government maximum return on those investments.

space_elevator2Regardless of which contractor’s design bears fruit, the future of space exploration is clear. In addition to focusing on cutting costs and reusability, it will depend heavily upon public and private sector collaboration. As private space companies grab a larger share of the space tourism and shipping market, they will be called upon to help pick up the slack, and lend their expertise to more ambitious projects.

Examples abound, from putting satellites, supplies and astronauts into orbit, to landing settlers on Mars itself. And who knows? In the foreseeable future, NASA, Russia, China, the ESA and Japan may also be working hand-in-hand with transport and energy companies to make space-based solar power and a space elevator a reality!

Source: gizmag.com, globenewswire.com

News From Space: XS-1 Reusable Spacecraft

sx-1_spaceplaneWhen it comes to the future of space exploration, the ongoing challenge has been to find a way to bring down the costs associated with getting things into orbit. In recent years, a number of solutions have been presented, many of which have been proposed by private companies like SpaceX and Reaction Engines. Not to be outdone, the US government has its own proposal, known as the XS-1.

Developed by DARPA, the XS-1 is the latest in a string of designs for a reusable spacecraft that would be capable of taking off and landing from an airfield. But unlike its predecessors, this craft would be a two-stage craft that has no pilot and is controlled much like a drone. By combining these two innovations, DARPA foresees an age where a “one day turnaround,” or daily launches into space, would be possible.

skylon-orbit-reaction-enginesBasically, the XS-1 will work as a two-stage flyer, beginning as a regular high-altitude drone meant to fly as high as possible and reach hypersonic speed. Once this has been achieved, the payload will separate along with an expendable launch system with a small tank of rocket fuel which will then be automatically delivered to its final destination. The plane, meanwhile, will automatically return to base and begin prep for the next day’s mission.

In addition to being cheaper than rockets and space shuttles, an XS-1 space plane would also be much faster than NASA’s now-retired STS shuttles. Much like Reaction Engines Skylon concept, the ship is designed for hypersonic speeds, in this case up to Mach 10. While this might sound incredibly ambitious, NASA has already managed to achieve a top speed of Mach 9.8 with their X-43A experimental craft back in 2004 (albeit only for ten seconds).

x-43a The XS-1′s payload capacity should be around 2300 kilograms (5000 pounds) per mission, and DARPA estimates that a single launch would cost under $5 million. Currently, it costs about $20,000 to place a single kilo (2.2lbs) into geostationary orbit (GSO), and about half that for low-Earth orbit (LEO). So while DARPA’s requirements are certainly stringent, they would cut costs by a factor of ten and is within the realm of possibility.

As it stands, all ideas being forth are centered around reinventing the rocket to make launches cheaper. When it comes to long-term solutions, grander concepts like the space elevator, the slingatron, or space penetrators may become the norm. Regardless, many of the world’s greatest intellectual collectives have set their sights on finding a more affordable path into space. These advanced launch jets are just the first step of many.

Sources: extremetech.com, news.cnet.com