“Air launch to orbit”的意思、由来-开放百科全书

Air launch to orbit is the method of launching rockets at altitude from a conventional horizontal-takeoff

aircraft, to carry satellites to low Earth orbit. It is a follow-on development of air launches of experimental aircraft that began in the late 1940s. This method, when employed for orbital payload insertion, presents significant advantages over conventional vertical rocket launches, particularly because of the reduced mass, thrust and cost of the rocket.

Air launching is also being developed for sub-orbital spaceflight. In 2004 the Ansari X Prize $10 Million purse was won by a team led by Burt Rutan's Scaled Composites, launching the SpaceShipOne from the purpose-built White Knight carrier aircraft.

Advantages

The principal advantage of a rocket being launched by a high flying airplane is that it need not fly through the low, dense atmosphere, the drag of which requires a considerable amount of extra work and thus mass of propellant. Higher densities at lower altitudes result in larger drag forces acting on the vehicle. In addition, thrust is lost due to over-expansion of the exhaust at high ambient pressure and under-expansion at low ambient pressure; a fixed nozzle geometry cannot provide optimal exhaust expansion over the full range of ambient pressure, and represents a compromise solution. Rockets launched from high altitude can be optimized for lower ambient pressure, thus achieving greater thrust over the entire operating regime.

Propellant is conserved because the air-breathing carrier aircraft lifts the rocket to altitude much more efficiently. Airplane engines do not require on-board storage of an oxidizer and they can use the surrounding air to produce thrust, for example with a turbofan. This allows the launch system to conserve a significant amount of mass that would otherwise be reserved for fuel, reducing the overall size. A larger fraction of the rocket mass can then include payload, reducing payload launch costs. It is also possible to make use of higher-impulse fuels precluded from surface launches due to their toxicity, such as those containing beryllium or fluorine.

Air launch to orbit offers the potential for aircraft-like operations such as launch on demand, and is also less subject to launch-constraining weather. This allows the aircraft to fly around weather conditions as well as fly to better launch points, and to launch a payload into any orbital inclination at any time. Insurance costs are reduced as well, because launches occur well away from land, and there is no need for a launch pad or blockhouse.{{citation needed|date=June 2013}}

Air launch to orbit also works well as part of a combination launch system such as a reusable air-launched single stage to skyhook launch vehicle powered by a rocket or rocket/ramjet/scramjet engine.

An additional benefit of air launch to orbit is a reduced delta V needed to achieve orbit. This results in a greater payload to fuel ratio which reduces the cost per unit mass to orbit. To further leverage the Delta V advantage, supersonic air launch to orbit has been proposed.^[1]

Disadvantages

According to Aviation Week and Space Technology, air launch to orbit is limited by aircraft size. Additionally, airplanes may generate large lateral forces which could damage payloads.^[2]

SpaceX CEO Elon Musk argued in a Q&A session that the increase in performance is not worth the additional complexity and limitations (paragraphs added):

Air launch systems

See also

References

1. ^{{cite web |url=http://m-selig.ae.illinois.edu/pubs/ClarkeEtal-2007-AIAA-2007-5841-AirLaunch.pdf |title=Conceptual Design of a Supersonic Air-launch System |accessdate=2014-12-03 |deadurl=no |archiveurl=https://web.archive.org/web/20150210181223/http://m-selig.ae.illinois.edu/pubs/ClarkeEtal-2007-AIAA-2007-5841-AirLaunch.pdf |archivedate=2015-02-10 |df= }}
2. ^{{cite news|last1=Norris|first1=Guy|title=Design Space |work=Aviation Week and Space Technology|issue=Volume 177 Number 2|date=15 February 2015}}
3. ^{{cite web|title=Transcript - Elon Musk lecture at the Royal Aeronautical Society|url=http://shitelonsays.com/transcript/elon-musk-lecture-at-the-royal-aeronautical-society-2012-11-16|website=Shit Elon Says|accessdate=11 March 2016|deadurl=no|archiveurl=https://web.archive.org/web/20160311191605/http://shitelonsays.com/transcript/elon-musk-lecture-at-the-royal-aeronautical-society-2012-11-16|archivedate=11 March 2016|df=}}
4. ^{{cite web |title=Technologies |url=http://cubecab.com/technologies.html |accessdate=2015-12-01 |deadurl=no |archiveurl=https://web.archive.org/web/20151208062458/http://cubecab.com/technologies.html |archivedate=2015-12-08 |df= }}
5. ^ARCA Space, Haas Orbital Rocket Launcher {{webarchive|url=https://web.archive.org/web/20120722021228/https://www.arcaspace.com/images/Haas_Orbital_Rocket_Launcher.pdf |date=2012-07-22 }} fact sheet, Dec. 2, 2008 (accessed 22 Sept 2014)
6. ^{{cite news | last=Leone|first=Dan | title=Startup Generation Orbit Launch Service Bets Big on ‘Small Space’ | url=http://www.spacenews.com/article/launch-report/38365startup-generation-orbit-launch-service-bets-big-on-%E2%80%98small-space%E2%80%99 | date=November 26, 2013}}
7. ^{{cite news| last=Diller| first=George| title=NASA Awards First CubeSat-Class Launch Services Contract| url=http://www.nasa.gov/centers/kennedy/news/releases/2013/release-20130930.html#.U0LmXahdXuN| date=September 30, 2013| deadurl=no| archiveurl=https://web.archive.org/web/20130930203724/http://www.nasa.gov/centers/kennedy/news/releases/2013/release-20130930.html#.U0LmXahdXuN| archivedate=September 30, 2013| df=}}
8. ^{{cite news|last1=Borys|first1=Christian|title=The world's biggest plane may have a new mission|url=http://www.bbc.com/future/story/20170503-the-worlds-biggest-plane-may-have-a-new-mission|accessdate=20 October 2017|publisher=BBC|date=7 May 2017|deadurl=no|archiveurl=https://web.archive.org/web/20171020053757/http://www.bbc.com/future/story/20170503-the-worlds-biggest-plane-may-have-a-new-mission|archivedate=20 October 2017|df=}}
9. ^{{cite news |last1=Gebhardt |first1=Chris |title=SNC, Stratolaunch expand on proposed Dream Chaser flights |url=http://www.nasaspaceflight.com/2014/11/snc-stratolaunch-dream-chaser-flights/ |accessdate=2014-11-27 |work=NASASpaceFlight.com |date=2014-11-26 |deadurl=no |archiveurl=https://web.archive.org/web/20141128230714/http://www.nasaspaceflight.com/2014/11/snc-stratolaunch-dream-chaser-flights/ |archivedate=2014-11-28 |df= }}
10. ^¹Russia, Kazakhstan to develop unique space system {{webarchive|url=https://web.archive.org/web/20130209151518/http://www.bilkent.edu.tr/~crs/russiakazakhstan.htm |date=2013-02-09 }}: "Ukrainian experts moved to develop the Svityaz system based on the An-225 Mriya (Dream) Cossack jumbo transport plane and the Zenit-2 rocket", "The Ishim complex will include two MiG-31I aircraft, a three-stage launch vehicle on a streamlined store between engine nacelles, as well as an Ilyushin Il-76MD Midas surveillance plane."
11. ^{{cite news |last=Bergin |first=Chris |title=Stratolaunch and Orbital – The Height of Air Launch |url=http://www.nasaspaceflight.com/2013/05/stratolaunch-orbital-air-launch/ |accessdate=2013-05-24 |newspaper=NASASpaceFlight.com |date=2013-05-25 |deadurl=no |archiveurl=https://web.archive.org/web/20130608063833/http://www.nasaspaceflight.com/2013/05/stratolaunch-orbital-air-launch/ |archivedate=2013-06-08 |df= }}

Advantages

Disadvantages

Air launch systems

See also

References

External links