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  XS-1: Boeing 'Phantom Express' spaceplane

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Author Topic:   XS-1: Boeing 'Phantom Express' spaceplane
Robert Pearlman
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Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 05-24-2017 10:30 AM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
Defense Advanced Research Projects Agency (DARPA) release
DARPA Picks Design for Next-Generation Spaceplane

Agency partners with Boeing to build and fly an experimental vehicle for aircraft-like access to space

DARPA has selected The Boeing Company to complete advanced design work for the Agency's Experimental Spaceplane (XS-1) program, which aims to build and fly the first of an entirely new class of hypersonic aircraft that would bolster national security by providing short-notice, low-cost access to space. The program aims to achieve a capability well out of reach today—launches to low Earth orbit in days, as compared to the months or years of preparation currently needed to get a single satellite on orbit. Success will depend upon significant advances in both technical capabilities and ground operations, but would revolutionize the Nation's ability to recover from a catastrophic loss of military or commercial satellites, upon which the Nation today is critically dependent.

"The XS-1 would be neither a traditional airplane nor a conventional launch vehicle but rather a combination of the two, with the goal of lowering launch costs by a factor of ten and replacing today's frustratingly long wait time with launch on demand," said Jess Sponable, DARPA program manager. "We're very pleased with Boeing's progress on the XS-1 through Phase 1 of the program and look forward to continuing our close collaboration in this newly funded progression to Phases 2 and 3—fabrication and flight."

The XS-1 program envisions a fully reusable unmanned vehicle, roughly the size of a business jet, which would take off vertically like a rocket and fly to hypersonic speeds. The vehicle would be launched with no external boosters, powered solely by self-contained cryogenic propellants. Upon reaching a high suborbital altitude, the booster would release an expendable upper stage able to deploy a 3,000-pound satellite to polar orbit. The reusable first stage would then bank and return to Earth, landing horizontally like an aircraft, and be prepared for the next flight, potentially within hours.

In its pursuit of aircraft-like operability, reliability, and cost-efficiency, DARPA and Boeing are planning to conduct a flight test demonstration of XS-1 technology, flying 10 times in 10 days, with an additional final flight carrying the upper-stage payload delivery system. If successful, the program could help enable a commercial service in the future that could operate with recurring costs of as little as $5 million or less per launch, including the cost of an expendable upper stage, assuming a recurring flight rate of at least ten flights per year—a small fraction of the cost of launch systems the U.S. military currently uses for similarly sized payloads. (Note that goal is for actual cost, not commercial price, which would be determined in part by market forces.)

To achieve these goals, XS-1 designers plan to take advantage of technologies and support systems that have enhanced the reliability and fast turnaround of military aircraft. For example, easily accessible subsystem components configured as line replaceable units would be used wherever practical to enable quick maintenance and repairs.

The XS-1 Phase 2/3 design also intends to increase efficiencies by integrating numerous state-of-the-art technologies, including some previously developed by DARPA, NASA, and the U.S. Air Force. For example, the XS-1 technology demonstrator's propulsion system is an Aerojet Rocketdyne AR-22 engine, a version of the legacy Space Shuttle main engine (SSME).

Other technologies in the XS-1 design include:

  • Advanced, lightweight composite cryogenic propellant tanks to hold liquid oxygen and liquid hydrogen propellants

  • Hybrid composite-metallic wings and control surfaces able to withstand the physical stresses of suborbital hypersonic flight and temperatures of more than 2,000o F

  • Automated flight-termination and other technologies for autonomous flight and operations, including some developed by DARPA's Airborne Launch Assist Space Access (ALASA) program
XS-1 Phase 2 includes design, construction, and testing of the technology demonstration vehicle through 2019. It calls for initially firing the vehicle's engine on the ground 10 times in 10 days to demonstrate propulsion readiness for flight tests.

Phase 3 objectives include 12 to 15 flight tests, currently scheduled for 2020. After multiple shakedown flights to reduce risk, the XS-1 would aim to fly 10 times over 10 consecutive days, at first without payloads and at speeds as fast as Mach 5. Subsequent flights are planned to fly as fast as Mach 10, and deliver a demonstration payload between 900 pounds and 3,000 pounds into low Earth orbit.

Another goal of the program is to encourage the broader commercial launch sector to adopt useful XS-1 approaches, processes, and technologies that facilitate launch on demand and rapid turnaround—important military and commercial needs for the 21st century. Toward that goal, DARPA intends to release selected data from its Phase 2/3 tests and will provide to all interested commercial entities the relevant specs for potential payloads.

"We're delighted to see this truly futuristic capability coming closer to reality," said Brad Tousley, director of DARPA's Tactical Technology Office (TTO), which oversees XS-1. "Demonstration of aircraft-like, on-demand, and routine access to space is important for meeting critical Defense Department needs and could help open the door to a range of next-generation commercial opportunities."

Robert Pearlman
Editor

Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 05-24-2017 10:30 AM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
Boeing release
Boeing, DARPA to Design, Build, Test New Experimental Spaceplane

Phantom Express aims to enable faster, more affordable small satellite launches

Boeing and the U.S. Defense Advanced Research Projects Agency (DARPA) are collaborating to design, build and test a technology demonstration vehicle for the Experimental Spaceplane (XS-1) program.

Boeing will develop an autonomous, reusable spaceplane capable of carrying and deploying a small expendable upper stage to launch small (3,000 pound/1,361 kg) satellites into low Earth orbit. Boeing and DARPA will jointly invest in the development.

Once the spaceplane — called Phantom Express — reaches the edge of space, it would deploy the second stage and return to Earth. It would then land on a runway to be prepared for its next flight by applying operation and maintenance principles similar to modern aircraft.

"Phantom Express is designed to disrupt and transform the satellite launch process as we know it today, creating a new, on-demand space-launch capability that can be achieved more affordably and with less risk," said Darryl Davis, president, Boeing Phantom Works.

The Aerojet Rocketdyne AR-22 engine, a version of the legacy Space Shuttle main engine, would power the spaceplane. It is designed to be reusable and operates using liquid oxygen and liquid hydrogen fuel.

Phantom Express would offer an advanced airframe design as well as third-generation thermal protection to create a vehicle capable of flying at high flight velocity, while carrying a smaller, more affordable expendable upper stage to achieve the mission objectives.

In the test phase of the program, Boeing and DARPA plan to conduct a demonstration of 10 flights over 10 days.

Robert Pearlman
Editor

Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 06-04-2018 09:29 AM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
Aerojet Rocketdyne release
First Engine Assembled for DARPA and Boeing Reusable Experimental Spaceplane

Aerojet Rocketdyne has completed assembly of its first AR-22 rocket engine built for Boeing (NYSE:BA) as part of the U.S. Defense Advanced Research Projects Agency (DARPA) Experimental Spaceplane program. This new Boeing spaceplane, called Phantom Express, is intended to demonstrate a new paradigm for more routine, responsive and affordable space access.

Above: Aerojet Rocketdyne has completed assembly of its first AR-22 rocket engine, shown at its facility located at Stennis Space Center.

Aerojet Rocketdyne's AR-22 engine, derived from the Space Shuttle Main Engine that was designed from the outset for reusability, is the main propulsion for Phantom Express.

"Phantom Express builds on our legacy of reusable space flight experience to provide the ability to quickly augment and replace on-orbit capabilities, which face an increasing array of threats from potential adversaries," said Eileen Drake, Aerojet Rocketdyne CEO and president. "Our immediate task is to demonstrate this rapid turnaround capability for this engine on the ground, paving the way for a demonstration program."

The AR-22 engine is capable of generating about 375,000 pounds (170,097 kg) of thrust and was designed to fly 55 missions with service every 10 missions. This reusability feature makes the AR-22 ideally suited for Phantom Express.

The reusable Phantom Express spaceplane will take off vertically and land horizontally. The vehicle will be equipped with an expendable second stage capable of placing up to 3,000 pounds (1,361 kg) of payload into low Earth orbit.

Above: Aerojet Rocketdyne technicians complete final assembly on the first AR-22 rocket engine, shown at its facility located at Stennis Space Center.

"The aircraft-like operations of Phantom Express are an important factor in the rapid turnaround of this spaceplane," said AR-22 Program Manager Jeff Haynes. "Additionally, the engine has a hinged nacelle that makes it easier to access and inspect the engines for rapid turnaround."

Aerojet Rocketdyne assembled the AR-22 at its facility at NASA's Stennis Space Center in Mississippi. The engine will undergo a series of daily hot-fire tests at Stennis starting this summer to demonstrate its ability to support the high flight rates envisioned for Phantom Express. These tests will also provide valuable insight that will be used to refine Phantom Express flight and turnaround procedures, while also informing the design requirements for the new ground infrastructure that Boeing is developing for the flight program.

Robert Pearlman
Editor

Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 07-03-2018 04:22 PM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
From Aerojet Rocketdyne on Twitter (with AP video):
Natural and rocket rain today [July 3] with the Phantom Express Experimental Spaceplane AR-22 ground engine demo. Rocket rain equals liquid hydrogen and liquid hydrogen propellants mixing.

Robert Pearlman
Editor

Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 07-10-2018 05:40 PM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
Aerojet Rocketdyne release
Aerojet Rocketdyne Demonstrates 24-Hour Turnaround of AR-22 Engine for Experimental Spaceplane Concept

Aerojet Rocketdyne successfully fired its AR-22 booster rocket engine an unprecedented 10 times in 240 hours at NASA Stennis Space Center, demonstrating the feasibility of rapidly recycling the engine to enable a reusable launch vehicle capable of high-tempo, aircraft-like flight operations.

"Aerojet Rocketdyne has continued to refine the reusable engine technology we originally developed for the Space Shuttle program," said Eileen Drake, Aerojet Rocketdyne CEO and president. "With the AR-22 we are taking reusability to the next level and have demonstrated that daily, affordable access to space is within reach."

The highly anticipated test sequence was carried out as part of the collaboration between Boeing [NYSE:BA] and the U.S. Defense Advanced Research Projects Agency (DARPA) on the Experimental Spaceplane program. Boeing is designing and developing the Phantom Express spaceplane for this program and the successful engine test results will help improve the spaceplane's design.

"Phantom Express is a disruptive, reusable launch system. Successfully completing this highly demanding rocket engine test series validated a new level of booster capability for this transformational launch vehicle," continued Drake. "Turning the AR-22 within 24 hours repeatedly over 10 days demonstrates the capability of this engine and the ability to enable rapid, responsive access to space."

On Tuesday, July 3, DARPA director Steve Walker visited NASA Stennis Space Center to view one of the engine tests. He complimented the team on their support of national security, highlighting their demonstration of the importance of the speed of relevance.

The liquid-oxygen and hydrogen-fueled AR-22 engine, capable of generating more than 375,000 pounds of thrust, fired at full throttle during the tests, each lasting at least 100 seconds in duration. After each firing, Aerojet Rocketdyne technicians carried out pre-planned inspections and data reviews in preparation for the next test.

The 10 test firings took place in a test period conducted June 26 to July 6, 2018.

"Aerojet Rocketdyne is very proud to have such an important role in a program that could literally revolutionize space access with a vehicle capable of launching on a daily basis," Drake added. "With the Defense Department and commercial sector anticipating a shift toward constellations of smaller satellites that can be replenished quickly, the Phantom Express is the right program at the right time for the nation."

The Phantom Express spaceplane is designed to launch vertically and land horizontally to allow for aircraft-like operations in support of the U.S. government's resilient space vision and commercial missions. The vehicle will be equipped with an expendable second stage capable of placing up to 3,000 pounds or 1,361 kg of payload into low Earth orbit.

Robert Pearlman
Editor

Posts: 43108
From: Houston, TX
Registered: Nov 1999

posted 01-22-2020 07:48 PM     Click Here to See the Profile for Robert Pearlman   Click Here to Email Robert Pearlman     Edit/Delete Message   Reply w/Quote
Boeing has decided to no longer continue development of the "Phantom Express" spaceplane, effectively ending DARPA's XSP program, reports SpaceNews.
In a Jan. 22 statement to SpaceNews, DARPA spokesman Jared Adams said that Boeing had notified the agency of its decision to exit the Experimental Spaceplane Program "immediately." DARPA didn't state why Boeing was dropping out of the program.

"Following a detailed review, Boeing is ending our role in the Experimental Spaceplane (XSP) program immediately," Boeing spokesman Jerry Drelling said. "We will now redirect our investment from XSP to other Boeing programs that span the sea, air and space domains."

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