viernes, 6 de mayo de 2011

SpaceShipTwo's First "Feathered" Flight Marks Latest Milestone for Virgin Galactic.



Early on Wednesday 4th May 2011, in the skies above Mojave Air and Spaceport CA, SpaceShipTwo, the world's first commercial spaceship, demonstrated its unique reentry 'feather' configuration for the first time. This test flight, the third in less than two weeks, marks another major milestone on the path to powered test flights and commercial operations.

SpaceShipTwo (SS2), named VSS Enterprise, has now flown solo seven times since its public roll-out in December 2009 and since the completion of its ground and captive -carry test program.

This latest flight saw a 6:43AM (local) runway take off for VSS Enterprise, attached to its WhiteKnightTwo (WK2) carrier aircraft, VMS Eve. At the controls of the of the spaceship were Scaled Composites' test pilots Pete Siebold and Clint Nichols whilst Mark Stucky, Brian Maisler and Brandon Inks crewed the purpose built, all composite, twin fuselage WK2.

After a 45 minute climb to the desired altitude of 51,500 feet, SS2 was released cleanly from VMS Eve and established a stable glide profile before deploying, for the first time, its re-entry or "feathered" configuration by rotating the tail section of the vehicle upwards to a 65 degree angle to the fuselage. It remained in this configuration with the vehicle's body at a level pitch for approximately 1 minute and 15 seconds whilst descending, almost vertically, at around 15,500 feet per minute, slowed by the powerful shuttlecock-like drag created by the raised tail section. At around 33,500 feet the pilots reconfigured the spaceship to its normal glide mode and executed a smooth runway touch down, approximately 11 minutes and 5 seconds after its release from VMS Eve.

All objectives for the flight were met and detailed flight data is now being analysed by the engineers at Scaled Composites, designers and builders of Virgin Galactic's sub-orbital spacecraft.

George Whitesides, CEO and President of Virgin Galactic, said: "This morning's spectacular flight by VSS Enterprise was its third in 12 days, reinforcing the fast turnaround and frequent flight-rate potential of Virgin Galactic's new vehicles. We have also shown this morning that the unique feathering re-entry mechanism, probably the single most important safety innovation within the whole system, works perfectly. This is yet another important milestone successfully passed for Virgin Galactic, and brings us ever closer to the start of commercial operations. Credit is due to the whole Scaled team, whose meticulous planning and great skill are changing the course of history."

Pete Siebold, who along with Clint Nichols piloted the spaceship added:
"In all test flight programs, after the training, planning and rehearsing, there comes the moment when you have to go up there and fly it for real. This morning's flight was a test pilot's dream. The spaceship is a joy to fly and the feathered descent portion added a new, unusual but wonderful dynamic to the ride. The fact that it all went to plan, that there were no surprises and that we brought VSS Enterprise back to Mojave safe and sound is a great testament to the whole team."

Wing Feathering for Re-Entry

Perhaps the most innovative safety feature employed by SpaceshipOne and now SpaceShipTwo is the unique way it returns into the dense atmosphere from the vacuum of space. This part of space flight has always been considered as one of the most technically challenging and dangerous and Burt Rutan was determined to find a failsafe solution which remained true to Scaled Composite's philosophy of safety through simplicity. His inspiration for what is known as the feathered re-entry was the humble shuttlecock, which like SpaceShipTwo relies on aerodynamic design and laws of physics to control speed and attitude.

Once out of the atmosphere the entire tail structure of the spaceship can be rotated upwards to about 65º. The feathered configuration allows an automatic control of attitude with the fuselage parallel to the horizon. This creates very high drag as the spacecraft descends through the upper regions of the atmosphere. The feather configuration is also highly stable, effectively giving the pilot a hands-free re-entry capability, something that has not been possible on spacecraft before, without resorting to computer controlled fly-by-wire systems. The combination of high drag and low weight (due to the very light materials used to construct the vehicle) mean that the skin temperature during re-entry stays very low compared to previous manned spacecraft and thermal protection systems such as heat shields or tiles are not needed. During a full sub-orbital spaceflight, at around 70,000ft following re-entry, the feather lowers to its original configuration and the spaceship becomes a glider for the flight back to the spaceport runway.

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Vuelo en formación de satélites: SENER es máximo responsable de la misión espacial Proba-3

SENER ha obtenido el contrato de fase B de la misión de vuelo en formación Proba-3 de la Agencia Espacial Europea (ESA). En virtud de este acuerdo, la firma de ingeniería se convierte en el contratista principal de esta misión y máximo responsable de su desarrollo, que concluirá con la verificación en órbita del sistema. Se trata de la primera vez que una empresa española consigue liderar una misión completa de la ESA.

La firma del contrato tuvo lugar el pasado 29 de marzo en el Centro de Investigación y Tecnología Espacial Europeo (ESTEC) de la ESA, entre el director del departamento de Espacio de SENER, Diego Rodríguez, y el responsable en funciones de la Dirección de Tecnología y Calidad de la ESA, Philippe Perol, con la presencia del recientemente nombrado director, Franco Ongaro.

Proba-3 constituye la tercera misión de la serie Proba de pequeños satélites de la ESA para validar desarrollos en sistemas espaciales. La serie Proba forma parte del Programa de Demostración de Tecnología en Órbita de la ESA, financiado a través del Programa General de Apoyo Tecnológico (GSTP).

El vuelo en formación, de gran interés práctico, consiste esencialmente en dos o más satélites que viajan de modo coordinado y mantienen distancias y orientaciones relativas muy precisas. Esto permite, por ejemplo, componer un gran telescopio espacial donde sus elementos esenciales (lente y detectores) pueden estar muy separados conservando, sin embargo, su distancia relativa estable. De este modo, se evitan las grandes estructuras desplegables, que penalizan los lanzamientos al aumentar considerablemente el peso y el volumen de la carga útil.

Proba-3 es una misión de demostración de las tecnologías necesarias para la realización de vuelo en formación: partiendo de dos minisatélites Proba, que se colocarán en una órbita muy excéntrica alrededor de la Tierra, se realizarán maniobras diversas y mediciones experimentales que permitan valorar las prestaciones de los novedosos equipos que dicha misión requiere. También se podrán evaluar la precisión y la estabilidad de dichas maniobras en la posición relativa de ambas naves. Adicionalmente, la misión incorporará un coronógrafo (un instrumento para analizar la atmósfera o corona solar) que se beneficiará de las posibilidades que ofrece Proba-3, al separar decenas de metros el ocultador solar del propio instrumento.

Proba-3 es una misión compleja desde un punto de vista tecnológico y requiere la coordinación de numerosas empresas. Destaca la participación española, con SENER como contratista principal, GMV como responsable del subsistema de vuelo en formación y EADS CASA Espacio, que desarrollará uno de los dos minisatélites.

SENER participa en este programa desde el año 2007, cuando se inició la fase puente para consolidar los estudios iniciales (de fase A) de este proyecto, que se remontan a 2006. En esa primera participación de SENER, la empresa lideró el equipo que llevó a cabo la gestión del vuelo en formación y el sistema de Guiado, Navegación y Control (GNC). En noviembre de 2009 se iniciaron las negociaciones para alcanzar el liderazgo del proyecto, que han fructificado con la firma del contrato de fase B el pasado 29 de marzo

PR