Facility to test SABRE air-breathing engine under construction

The Synergistic Air-Breathing Rocket Engine is uniquely designed to scoop up atmospheric air during the early part of its flight to orbit. This slashes the need for the vehicle to carry bulky onboard oxygen for this part of the ascent, before switching to rocket mode drawing on internal propellants for its final climb to space. To allow SABRE to use the superfast onrushing airstream as oxidiser, the air must be cooled from 1000°C to –150°C within just a hundredth of second, at the same time avoiding the formation of dangerous ice.




Reaction Engines Press release




Reaction Engines begins construction of UK rocket engine test facility

Reaction Engines Ltd. today began construction of a new engine test facility where it plans to undertake the first ground based demonstration of its revolutionary SABRE™ air-breathing rocket engine.

The test facility at Westcott, Buckinghamshire, UK will enable Reaction Engines to test critical subsystems along with the testing of a SABRE engine core, which will commence in 2020.

The project represents a substantial investment for Reaction Engines, which will consist of a multi-purpose propulsion test stand designed to accommodate various test engine configurations, an assembly building, workshops, offices and control room. The location of workshops and other support facilities alongside the test stand will enable configuration changes to the engine to take place at the site, reducing the down time between testing phases and accelerating the development programme of the SABRE engine.

To mark the start of construction, Mark Thomas, CEO, Reaction Engines undertook a ground breaking ceremony with Franco Ongaro, Director of Technology, Engineering and Quality, European Space Agency (ESA); Dr. Chris Castelli, Director, Programmes, UK Space Agency and Richard Harrington, CEO, Buckinghamshire Thames Valley LEP.

Mark Thomas, CEO, Reaction Engines said:

“This is another exciting step forward in development of Reaction Engines’ SABRE engine and a visible demonstration of the UK’s commitment to the programme. I look forward to seeing this unique facility take shape and commencing our core engine testing, which will be a defining moment for aerospace.”

Franco Ongaro, Director of Technology, Engineering and Quality, ESA said:

“The opening of this new test facility at Westcott Today marks an historical moment for the European Aerospace industry and for the UK research and development in rocket propulsion. This facility will enable the ground test of the SABRE engine cycle, opening the way to the first flight tests, and to a new era. The European Space Agency is proud of this partnership with industry and the UK Space Agency, to which we bring our technical competence, which has supported the SABRE development to this stage, and we are confident, to its future flight success.”

The construction of the SABRE engine test facility is a significant milestone. The company has already successfully undertaken testing of the engine’s pre-cooler and thrust chamber technologies, and will undertake further ground-based high-temperature testing of the pre-cooler early in 2018.

The test facility is located in the Westcott Venture Park, a location with a strong history of rocket propulsion research, having been used to test various UK rocket projects since 1946, including the Blue Streak and Black Arrow programmes. In 2016 the UK Space Agency selected Westcott as the UK’s National Space Propulsion Test Facility and the site is now home to a number of space propulsion and satellite technology companies.

About Westcott Venture Park:

Westcott Venture Park, owned by Rockspring Hanover Property Unit Trust, is a former Government Research Facility and today offers a wide range of industrial / office accommodation with units ranging from 120 sq ft up to 30,000 sq ft.

Located between Aylesbury and Bicester, it is the largest business park in Buckinghamshire with major occupiers including FedEx, Shanks, BAE Systems, Moog, and with Bucks Recycling, Ecopac, Green Retreats and Total Carbide occupying five former aircraft hangars.

Westcott Venture Park has successfully completed the letting of the first phase of the Century Court development, which has resulted in all seven units totalling 24,000 sq ft being fully occupied.

In 2016 Westcott Venture Park celebrated 70 years since the park became the Guided Projectile Establishment and therefore the home of rocket propulsion research in the UK.

Planning Permission for Reaction Engines test facility was approved on 28th April 2017 and the application for Hazardous Substance Consent has gained approval from HSE and is now going through the remainder of the planning process with the local council.



For further information, visit: www.westcottventurepark.co.uk

About Reaction Engines:

Reaction Engines Limited (‘Reaction Engines’) is a privately held, growing, company based in Culham, Oxfordshire, UK. It employs over 100 people, many of whom are aerospace engineers and apprentices. It was founded in 1989 to develop the technologies needed for an advanced combined cycle air-breathing rocket engine class called SABRE™ (Synergetic Air-Breathing Rocket Engine) which is a leading contender for the next generation of hypersonic flight and space access vehicles.

SABRE is an innovative new class of aerospace propulsion that has the potential to provide efficient air-breathing thrust from standstill on the runway to speeds above five times the speed of sound in the atmosphere. A SABRE engine can then transition to a rocket mode of operation, allowing spaceflight at up to orbital velocity, equivalent to twenty five times the speed of sound. Through its ability to ‘breathe’ air from the atmosphere, SABRE offers a significant reduction in propellant consumption and weight compared to conventional rocket engines which have to carry their own oxygen.

Ground test and development programme

There are three core building blocks to the SABRE engine technology, the pre-cooler, the engine core and the thrust chamber. Each of these systems can be developed and validated using ground based demonstrations which saves cost and time relative to flight test, a design feature that benefitted the development of the piston/propeller and jet engine. Reaction Engines plan to mature each of these independently over the next four years, with a high temperature test of the pre cooler planned early 2018.

Investment

Reaction Engines has received significant capital from private investors and public funding, which will support its transition from a successful research phase into development and testing of the engine. In 2013, the UK Government announced a £60m commitment to aid preparations for the design, manufacture and testing of a SABRE demonstrator engine. In 2015, the Company announced that BAE Systems had made a strategic investment in the company and committed to a working collaboration to accelerate the development of the engine.

Orbital Launch Vehicles

As a step change in propulsion, SABRE-class engines have the potential to truly revolutionise the space launch industry.

The high efficiency of a SABRE engine and the elimination of the need to carry on-board oxidizer during air-breathing flight segments, enable the development of single stage or two stage space launch system with aircraft-like horizontal take-off and landing operations, resulting in lower cost infrastructure, and mission timelines while increasing responsiveness and system reusability. In addition, SABRE powered launch vehicles can be designed with the ability to abort their mission and return to base- an attribute that will drive significant improvements in the reliability of space launch

Hypersonic Mission Applications

The SABRE-class is capable of achieving air-breathing flight from Mach 0 to Mach 5+ as a single propulsion installation and is well suited for a variety of potential high-speed mission areas. SABRE enables more capable high-speed vehicles to be designed and the engine’s rocket mode adds the additional flexibility to increase thrust or transition to sub-orbital flight.

Hypersonic Transport

SABRE-class engines have the potential to make the world smaller through high-speed point-to-point transport. To demonstrate the uses for SABRE engine technology in Mach 5 cruise applications, Reaction Engines engaged in a 50% EU-funded project as part of Framework 6, called LAPCAT — Long-term Advanced Propulsion Concepts and Technologies. This study examined the technologies required to reduce long-distance flights, e.g. From Brussels to Sydney, to just over 4 hours while cruising at Mach 5.

Other applications

Reaction Engines heat exchanger technology has the potential to revolutionise the approach to thermal management across a range of industries, from aerospace to motorsport, industrial processes, and the energy sector.

ESA Press Release
4 May 2017


Work began today on building the UK’s latest rocket engine test facility, designed for firing the engine core of the ESA-backed SABRE propulsion system within three years.

The Synergistic Air-Breathing Rocket Engine is uniquely designed to scoop up atmospheric air during the early part of its flight to orbit. This slashes the need for the vehicle to carry bulky onboard oxygen for this part of the ascent, before switching to rocket mode drawing on internal propellants for its final climb to space.

Such engines have the potential to revolutionise space launches, powering vehicles that can take off and land like aircraft.

Capable of airbreathing flight up to five times the speed of sound, they could also lead to hypersonic air travel.


UK company Reaction Engines Ltd has been working on the engine for many years, with ESA playing an important technical management role since 2008.

Today, ground was broken on the new test facility at Westcott Venture Park in the UK, an historic site for rocket research over the past seven decades. Engines for the Blue Streak and Black Arrow rockets were tested there, for example.

“The opening of this new test facility marks an historic moment for the European aerospace industry and for the UK research and development in rocket propulsion,” remarked Franco Ongaro, ESA Director of Technology, Engineering and Quality.

“This facility enables the ground test of the engine cycle, opening the way to the first test flights, and to a new era.


“ESA is proud of this partnership with industry and the UK Space Agency, to which we bring our technical competence, which has supported the development to this stage, and we are confident, to its future flight success.”

ESA has invested €10 million in SABRE, joining £50 million from the UK Space Agency.

ESA independently reviewed the engine’s viability in 2010, opening the way to UK government investment. Reaction Engines Ltd has subsequently received private investment from BAE Systems, focused on accelerating development.


To allow the engine to use the superfast onrushing airstream as oxidiser, the air must be cooled from 1000°C to –150°C within just a hundredth of second, at the same time avoiding the formation of dangerous ice.

In 2012 ESA oversaw testing of the prototype ‘precooler’ required to cool the air, followed by research and development projects covering other elements such as the novel rocket nozzles, air intake design and thrust chamber cooling.

Skylon's SABRE engine concept passes US Air Force feasibilty test [feedly]

http://www.gizmag.com/sabre-engine-afrl-feasibility-study/37092/

Reaction Engines' Skylon reusable spaceplane project has been given a boost, with analysis by the United States Air Force Research Laboratory (AFRL) confirming the feasibility of the SABRE engine cycle concept that lies at its heart. .. Continue Reading SABRE engine concept passes US Air Force feasibilty test

SKYLON spacecraft's engine passes critical test

SKYLON spacecraft's engine passes critical test:

Reaction Engines Ltd. announced on Wednesday the completion of a critical round of testing of its SABRE engine’s precooler system. The SABRE is a radical type of hybrid jet/rocket engine capable of propelling a spacecraft into orbit or an aircraft in the atmosphere, at a velocity of Mach 5 (3,800 mph, 3,300 knots, 6,115 km/h). It’s intended for Reaction Engines’ SKYLON spacecraft and its airliner derivative, the LAPCAT A2 hypersonic aircraft. ..
Continue Reading SKYLON spacecraft's engine passes critical test

Video: Lockheed Martin's Sabre Warrior,

http://gizmodo.com/5393496/sinister-sabre-warrior-drone-will-kill-us-all-one-day



The Sabre Warrior drone is 46 feet long, with a 36-foot wingspan, capable of taking off with 30,000 pounds of load using a 22,000-pound trust afterburning turbofan engine. It has two modular payload sections, which can be changed by soldiers in the field. Each bay can handle one 2,000 pound or two AIM-120 AMRAAM missiles or 10 smart bombs or sensors, or even fuel for extended range missions—even while this thing is air refuelable.

Boeing HorizonX Invests in Reaction Engines, a UK Hypersonic Propulsion Company

press release

• Hypersonic propulsion technology enables high-speed point-to-point transport
• First investment in a UK company by Boeing HorizonX Ventures

 Boeing [NYSE: BA] announced its investment in Reaction Engines Limited, a leader in advanced propulsion systems based in Oxfordshire, United Kingdom. Reaction Engines' technology will contribute to the next generation of hypersonic flight and space access vehicles.

Reaction Engines is known for its Synergetic Air-Breathing Rocket Engine (SABRE), a hybrid engine blending jet and rocket technology that is capable of Mach 5 in air-breathing mode and Mach 25 in rocket mode for space flight. As part of the SABRE program, Reaction Engines developed an ultra-lightweight heat exchanger that stops engine components from overheating at high speeds, thus improving access to hypersonic flight and space.

"As Reaction Engines unlocks advanced propulsion that could change the future of air and space travel, we expect to leverage their revolutionary technology to support Boeing's pursuit of hypersonic flight," said Steve Nordlund, vice president of Boeing HorizonX.

Founded by three propulsion engineers in 1989, Reaction Engines produces robust technical designs for advanced heat exchangers, air-breathing engines, and the vehicles they could power. These capabilities may lead to high-speed point-to-point transport that is cost-effective and sustainable.

"Boeing is a world-leader in many fields, bringing invaluable expertise in hypersonic research and space systems. I am thrilled and honored that Boeing HorizonX has chosen Reaction Engines as its first UK investment," said Mark Thomas, CEO of Reaction Engines. "This is a very exciting step that will contribute to our efforts to develop a commercial technology business and accelerate opportunities to further the future of air and space travel through SABRE technology."

Boeing HorizonX Ventures participated in this $37.3 million Series B funding round alongside Rolls-Royce Plc and BAE Systems. The Boeing HorizonX Ventures investment portfolio is made up of companies specializing in technologies for aerospace and manufacturing innovations, including autonomous systems, energy storage, advanced materials, augmented reality systems and software, machine learning, hybrid-electric propulsion and Internet of Things connectivity.

Boeing is the world's largest aerospace company and leading manufacturer of commercial jetliners and defense, space and security systems. A top U.S. exporter, the company supports airlines and U.S. and allied government customers in more than 150 countries.

Boeing employs more than 2,200 people across the UK at numerous sites, and in 2018 the company celebrates 80 years of partnership with British customers, suppliers, manufacturing, the Armed Forces and the air transport industry. Today, the UK remains a critically important market, supplier base and a source of some of the world's most innovative technology partners.

Reaction Engines unveils low-carbon spin-off for SABRE technology

https://www.flightglobal.com/engines/reaction-engines-unveils-low-carbon-spin-off-for-sabre-technology/146269.article 

VI Ciclo de conferencias Aeronáuticas de la FACV

http://www.funaereacv.es/Conferencias/Default.aspx?agr=127

 

Las conferencias para todo el año 2010 se celebrarán, como viene siendo habitual, en el Salón de Actos "Rafael Martínez Esteve" de la Terminal de Pasajeros del Aeropuerto de Valencia.

 

La Entrada es libre, en las fechas señaladas para cada conferencia, y dan comienzo a las 11:00 horas.

 

Títulos y fechas previstas:

 

1. Telecomunicaciones Aeronáuticas - 16/01/2010
2. Guerra electrónica y supresión de defensas aéreas - 13/02/2010
3. Nuevos conceptos de la Patrulla Marítima - 06/03/2010
4. La Aerostación en Valencia - 17/04/2010
5. Literatura Aeronáutica Española- 22/05/2010
6. La Guerra Aérea en Afghanistán(1979-2010) - 05/06/2010
7. La Aviazione Legionaria en la Guerra Civil española(1936-39) - 23/10/2010
8. El Sabre, primer caza a reacción del Ejército del Aire - 20/11/2010
9. El Dassault Mirage III "Plancheta", a los 40 años de su llegada - 18/12/2010

 

Telecomunicaciones Aeronáuticas

 16/01/2010 - 2010

Por D. Rafael Murcia Llorens – Ing. de Telecomunicación, Historiador Aeronáutico y Piloto.

 

Guerra electrónica y supresión de defensas aéreas

 13/02/2010 - 2010

Por D. Gorka L. Martínez Mezo – Investigador y Analista del Poder Aéreo

 

Nuevos conceptos de la Patrulla Marítima

06/03/2010 - 2010

Por D. Eduardo Jarabo López – Técnico Superior en Informática de Gestión

 

La Aerostación en Valencia

17/04/2010 - 2010

Por Ilmo. Sr. D. Adolfo Roldán Villén – Coronel (R) del EdA, miembro del I.H.C.A. y de la R.A. de la Historia

 

Literatura Aeronáutica Española

 22/05/2010 - 2010

Por D. Ramón Marteles López – Comandante del EdA y miembro del IHCA

 

La Guerra Aérea en Afghanistán(1979-2010)

05/06/2010 - 2010

Por D. Marcelino Sempere Domenech – Capitán del EdA, Dr. en Historia, Profesor de la A.G.A.

 

La Aviazione Legionaria en la Guerra Civil española(1936-39)

23/10/2010 - 2010

Por Ilmo. Sr. D. Jose Ramón Ávila Bardají – Coronel (R) del EdA, y Miembro del I.H.C.A.

 

El Sabre, primer caza a reacción del Ejército del Aire

20/11/2010 - 2010

Por D. Jose Luís González Serrano – Historiador Aeronáutico, y Miembro del IHCA

 

El Dassault Mirage III "Plancheta", a los 40 años de su llegada

18/12/2010 - 2010

Por D. Jose Manuel Santaner Bosch – Historiador Aeronáutico

 

No mechanical fault in Talisman Sabre Taipan crash

https://australianaviation.com.au/2025/05/no-mechanical-fault-in-talisman-sabre-taipan-crash/

SABRE rocket engine passes significant precooler milestone

https://www.theengineer.co.uk/sabre-precooler/

Fighter Rebuilders to Restore 'Skyblazers' F-86 Sabre

https://warbirdsnews.com/warbirds-news/fighter-rebuilders-to-restore-skyblazers-f-86-sabre.html 

Artículo: Sabre rocket engine could open up access to space as never before

http://www.guardian.co.uk/science/across-the-universe/2013/jul/17/sabre-rocket-engine-reaction-skylon

Enviado a través de Flipboard

Reaction Begins Building U.S. Hypersonic Engine Test Site

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Reaction Begins Building U.S. Hypersonic Engine Test Site // AviationWeek.com Commercial Aviation Channel
http://aviationweek.com/awindefense/reaction-begins-building-us-hypersonic-engine-test-site

A high-temperature airflow test site designed to evaluate a key technology in the Reaction Engines' hypersonic air-breathing combined cycle Sabre rocket engine is under assembly.

read more


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International industry collaboration on future combat air capability | BAE Systems | International

https://www.baesystems.com/en/article/international-industry-collaboration-on-future-combat-air-capability-takes-a-significant-step-forward 

Press release

UK, Sweden and Italy have begun trilateral industry discussions to strengthen collaboration between the three nations, as they develop world-leading future combat air capability.

The new trilateral framework sees industry from the three nations bringing together their skills and expertise in the combat air sector to collaborate on the research and development of cutting-edge technologies.

 

The three national industries comprise leading defence companies from the UK (BAE Systems, Leonardo UK, Rolls Royce and MBDA UK), Italy (Leonardo Italy, Elettronica, Avio Aero and MBDA Italia) and Sweden (Saab and GKN Aerospace Sweden).

 

Today's announcement builds on bilateral discussions which have taken place between the UK and Swedish and Italian industries and establishes a trilateral industry group. Together, the companies will assess common routes to future combat air capability using their know-how, expertise and technology development activities across current and future combat air systems.

 

This framework is another step on the path towards a full agreement between these national industries to formalise areas of joint collaboration on future combat air systems development.

 

These national industries each directly employ tens of thousands of people and support many more highly skilled jobs through their supply chains, underpinning national security and supporting economic prosperity in the UK, Sweden and Italy. 

 

Charles Woodburn, Chief Executive Officer, BAE Systems, said: "International partnering provides the best opportunity to deliver a capable, flexible and upgradeable combat air system. We've made good progress with Saab and Leonardo in identifying shared goals and expertise and through this new framework, we can build on this collaboration to unlock the huge potential across our three nations."

 

Alessandro Profumo, Chief Executive Officer, Leonardo, said: "All three national industries fully grasp the historic nature of this moment. Tempest will be the cornerstone of a cross-border system of common defence which will extend far beyond combat air. It will secure enormous economic benefits and vast industrial and technological progress for Italy and our partners. Together, we share an understanding that if we get this right now, our respective aerospace and defence industries will thrive for a generation."

 

Micael Johansson, Chief Executive Officer, Saab, said: "Combat Air is a key component of Sweden's defence policy and it is defined as a national security interest. Saab is therefore taking these important steps to remain at the forefront of System of Systems development and the advanced technologies within Combat Air. We welcome the leadership by the Swedish and UK government, as shown with their July 2019 MoU, and are pleased to deepen our relationship with Italian industry. Our announcement of an initial £50m Future Combat Air investment and a new FCAS centre in the UK, will contribute to closer working relationships with the other FCAS industrial partners and the UK Ministry of Defence."

 

The UK has existing co-operation with Sweden and Italy. All three nations' industries and militaries are partners in the joint development and operation of the Meteor beyond visual air-to-air missile that is arming Gripen, Eurofighter Typhoon and F-35. Swedish-made chaff and flare dispensers are used on UK Typhoons and Saab's Giraffe radar is a key part of the UK's Sky Sabre ground defence system. Swedish Gripen E aircraft are equipped with radars designed and built by Leonardo in Edinburgh. Meanwhile, both the Royal Air Force and the Aeronautica Militare operate the same, potent fleet of Eurofighter Typhoon and F-35 aircraft, part of more than 50 years of close collaboration in combat air.

Boeing, Rolls-Royce Back Reaction Hypersonic Engine Developer

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Boeing, Rolls-Royce Back Reaction Hypersonic Engine Developer // AviationWeek.com Commercial Aviation Channel
http://aviationweek.com/awindefense/boeing-rolls-royce-back-reaction-hypersonic-engine-developer-0

The emergence of Boeing and Rolls-Royce as new backers represents a significant endorsement for Reaction, which is designing and testing an air-breathing, combined-cycle rocket engine concept dubbed Sabre.

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RAAF heritage squadron retires 8 warbirds

Eight RAAF heritage aircraft are being withdrawn from flying after a "comprehensive review of technical and airworthiness factors".

A DH-115 Vampire T.35, Gloster Meteor F.8, Cessna A-37B Dragonfly, Ryan STM-S2, English Electric Canberra, CA-27 Sabre, CT4A, and RE8, all from No. 100 Squadron, will be "transitioned with dignity" out of service, with the squadron to continue flying 11 other aircraft.

https://australianaviation.com.au/2026/01/raaf-heritage-100-squadron-retires-eight-warbirds/

BAE Systems and The University of Manchester test new flight control technology on MAGMA unmanned aircraft

http://www.baesystems.com/en/article/first-magma-flight-trials

BAE Systems and The University of Manchester set to change the future of aircraft design with unique flight control technology


Together with The University of Manchester, we have successfully completed the first phase of flight trials with MAGMA – a small scale unmanned aerial vehicle (UAV), which will use a unique blown-air system to manoeuvre the aircraft - paving the way for future stealthier aircraft designs.


The new concept for aircraft control removes the conventional need for complex, mechanical moving parts used to move flaps to control the aircraft during flight. This could give greater control as well as reduce weight and maintenance costs, allowing for lighter, stealthier, faster and more efficient military and civil aircraft in the future.





The two technologies to be trialled first using the jet-powered UAV, MAGMA, are:



• Wing Circulation Control, which takes air from the aircraft engine and blows it supersonically through the trailing edge of the wing to provide control for the aircraft

• Fluidic Thrust Vectoring, which uses blown air to deflect the exhaust, allowing for the direction of the aircraft to be changed.





The flight trials are part of an ongoing project between our two organisations and wider long-term collaboration between industry, academia and government to explore and develop innovative flight control technology. Further flight trials are planned for the coming months to demonstrate the novel flight control technologies with the ultimate aim of flying the aircraft without any moving control surfaces or fins. If successful, the tests will demonstrate the first ever use of such circulation control in flight on a gas turbine aircraft and from a single engine.





Clyde Warsop, Engineering Fellow here at BAE Systems, said: "The technologies we are developing with The University of Manchester will make it possible to design cheaper, higher performance, next generation aircraft. Our investment in research and development drives continued technological improvements in our advanced military aircraft, helping to ensure UK aerospace remains at the forefront of the industry and that we retain the right skills to design and build the aircraft of the future."





Bill Crowther, a senior academic and leader of the MAGMA project at The University of Manchester, adds: "These trials are an important step forward in our efforts to explore adaptable airframes. What we are seeking to do through this programme is truly ground-breaking."





Additional technologies to improve the performance of the UAV are being explored in collaboration with the University of Arizona and NATO Science and Technology Organisation.





Innovation is a key focus for us here at BAE Systems, having invested £4.4 billion in Research and Development (R&D) over the past five years, representing a major asset to the UK defence industry. Our company has spent £1 billion on R&D in 2016 alone, including £10.7 million partnering with leading UK universities in areas such as novel materials, advanced manufacturing, artificial intelligence, air vehicles and avionics testing. We have also made strategic investments in a range of evolving technologies in the aerospace sector including the SABRE air-breathing rocket engine with Reaction Engines Ltd and mixed reality cockpit technology in partnership with The University of Birmingham as well as unique flight control technology with The University of Manchester

SABRE on course to chill SKYLON into orbit

http://feedproxy.google.com/~r/GizmagEmergingTechnologyMagazine/~3/p82tffC8lRU/story01.htm

Foto: A-10 Thunderbolt II, F-4 Phantom II, P-38 Lightning, F-86 Sabre

http://www.strategypage.com/military_photos/2009111902157.aspx