民營航天
民營航天、私人航天或商業航天(英語:Private spaceflight)是由官方政府機構以外的實體所進行的對航天科技以及空間應用技術的開發和利用。
在人類進入航天時代最初的幾十年裡,美蘇兩國政府的航天機構就曾分別與各自國內的設計局和私營公司展開過合作,通過對上述實體的資金補助等手段來支持航天新技術的開發和運營成本。其後於1975年成立的歐洲空間局(ESA)也大致效仿美蘇而遵循類似的空間技術發展模式[1]。但成立於1980年的阿麗亞娜空間公司卻先於美蘇成為全球首家商業航天發射服務的提供商[2][3],其後各國的大型國防承包商開始根據承接自政府機構的航天技術開發並運營各自的運載火箭系統。
目前為止,地球軌道上的私人航天產業包括通信衛星系統、衛星電視、衛星廣播、航天員天地往返運輸以及亞軌道和軌道級的太空旅遊。在美國,聯邦航空管理局甚至設立了一項名為「商業航天員」(英語:Commercial Astronaut)的新職業[1]。
進入新世紀以來,民營航天企業家們開始有計劃地設計並發展相關航天技術,以預期在2010年代左右可研製與冷戰時代政府研發的運載火箭[4][5]技術相當的運載系統並將之投入使用[6][7]:7,這些新產業於2010年之後在商業航天發射領域的市場帶來了巨大的競爭角逐,其中主要的競爭點之一是通過降低單次火箭的發射成本以提供更多的發射能力[8]。
現今私人航天飛行的主要成就包括:亞軌道太空飛機的飛行(太空船1號和2號)[9]、軌道級火箭的發射、充氣式可擴展空間站試驗艙段的在軌測試(創世紀1號、2號和BEAM試驗艙)[10],以及將宇航員成功送往空間站。
歷史
During the principal period of spaceflight in the mid-twentieth century, only nation states developed and flew spacecraft above the Kármán line, the nominal boundary of space. Both the U.S. civilian space program and Soviet space program were operated using mainly military pilots as astronauts. During this period, no commercial space launches were available to private operators, and no private organization was able to offer space launches. Eventually, private organizations were able to both offer and purchase space launches, thus beginning the period of private spaceflight.
The first phase of private space operation was the launch of the first commercial communications satellites. The U.S. Communications Satellite Act of 1962 allowed commercial consortia owning and operating their own satellites, although these were still deployed on state-owned launch vehicles.
In 1980, the European Space Agency created Arianespace, a company to be operated commercially after initial hardware and launch facilities were developed with government funding.[11] Arianespace has since launched numerous satellites as a commercial entity.[12]
The history of full private space transportation includes early efforts by German company OTRAG in the 20th century. Founded in 1975 as the first private company to attempt to launch a private spacecraft,[13] testing of its OTRAG rocket[14] began in 1977.[15] The history also covers numerous modern orbital and suborbital launch systems in the 21st century. More recent commercial spaceflight projects include the suborbital flights of Virgin Galactic and Blue Origin, the orbital flights of SpaceX and other COTS participants.
Development of alternatives to government-provided space launch services began in earnest in the 2000s. Private interests began funding limited development programs, but the US government later sponsored a series of programs to incentivize and encourage private companies to begin offering both cargo, and later, crew space transportation services.
Lower prices for launch services after 2010, and published prices for standard launch services, have brought about significant space launch market competition that had not been present previously.[16][17][18][19][5] By 2012, a private company had begun transporting cargo to and from the International Space Station, while a second private company was scheduled to begin making deliveries in 2013, ushering in a time of regular private space cargo delivery to and return from the government-owned space facility in low Earth orbit (LEO).[20] In this new paradigm for LEO cargo transport, the government contracts for and pays for cargo services on substantially privately developed space vehicles rather than the government operating each of the cargo vehicles and cargo delivery systems. 截至2013年[update], there is a mix of private and government resupply vehicles being used for the ISS, as the Russian Soyuz and Progress vehicles, and the European Space Agency (ESA) ATV (through 2014) and the Japanese Kounotori (through 2021) remain in operation after the 2011 retirement of the US Space Shuttle.
In June 2013, British newspaper The Independent claimed that "the space race is flaring back into life, and it's not massive institutions such as NASA that are in the running. The old view that human space flight is so complex, difficult and expensive that only huge government agencies could hope to accomplish it is being disproved by a new breed of flamboyant space privateers, who are planning to send humans out beyond the Earth's orbit for the first time since 1972,"[21] particularly noting projects underway by Mars One, Inspiration Mars Foundation, Bigelow Aerospace and SpaceX.[21]
American deregulation
The Commercial Space Launch Act of 1984 required encouragement of commercial space ventures, adding a new clause to NASA's mission statement:
- (c) Commercial Use of Space.--Congress declares that the general welfare of the United States requires that the Administration seek and encourage, to the maximum extent possible, the fullest commercial use of space.
Yet one of NASA's early actions was to effectively prevent private space flight through a large amount of regulation. From the beginning, though, this met significant opposition not only by the private sector, but in Congress. In 1962, Congress passed its first law pushing back the prohibition on private involvement in space, the Communications Satellite Act of 1962. While largely focusing on the satellites of its namesake, this was described by both the law's opponents and advocates of private space, as the first step on the road to privatisation.
While launch vehicles were originally bought from private contractors, from the beginning of the Shuttle program until the Space Shuttle Challenger disaster in 1986, NASA attempted to position its shuttle as the sole legal space launch option.[22] But with the mid-launch explosion/loss of Challenger came the suspension of the government-operated shuttle flights, allowing the formation of a commercial launch industry.[23]
On 4 July 1982, the Reagan administration released National Security Decision Directive Number 42 which officially set its goal to expand United States private-sector investment and involvement in civil space and space-related activities.[24]
On 16 May 1983, the Reagan administration issued National Security Decision Directive Number 94 encouraging the commercialization of ELV’s, which directed that, "The U.S. Government will license, supervise, and/or regulate U.S. commercial ELV operations only to the extent required to meet its national and international obligations and to ensure public safety."[25]
On 30 October 1984, US President Ronald Reagan signed into law the Commercial Space Launch Act.[26] This enabled an American industry of private operators of expendable launch systems. Prior to the signing of this law, all commercial satellite launches in the United States were restricted by Federal regulation to NASA's Space Shuttle.
On 11 February 1988, the Presidential Directive declared that the government should purchase commercially available space goods and services to the fullest extent feasible and shall not conduct activities with potential commercial applications that preclude or deter Commercial Sector space activities except for national security or public safety reasons. [27]
On 5 November 1990, United States President George H. W. Bush signed into law the Launch Services Purchase Act.[28] The Act, in a complete reversal of the earlier Space Shuttle monopoly, ordered NASA to purchase launch services for its primary payloads from commercial providers whenever such services are required in the course of its activities.
In 1996, the United States government selected Lockheed Martin and Boeing to each develop Evolved Expendable Launch Vehicles (EELV) to compete for launch contracts and provide assured access to space. The government's acquisition strategy relied on the strong commercial viability of both vehicles to lower unit costs. This anticipated market demand did not materialise, but both the Delta IV and Atlas V EELVs remain in active service.
Commercial launches outnumbered government launches at the Eastern Range in 1997.[29]
The Commercial Space Act was passed in 1998 and implements many of the provisions of the Launch Services Purchase Act of 1990.[30]
Nonetheless, until 2004 NASA kept private space flight effectively illegal.[31] But that year, the Commercial Space Launch Amendments Act of 2004 required that NASA and the Federal Aviation Administration legalise private space flight.[32] The 2004 Act also specified a "learning period" which restricted the ability of the FAA to enact regulations regarding the safety of people who might actually fly on commercial spacecraft through 2012, ostensibly because spaceflight participants would share the risk of flight through informed consent procedures of human spaceflight risks, while requiring the launch provider to be legally liable for potential losses to uninvolved persons and structures.[33]
To the end of 2014, commercial passenger flights in space has remained effectively illegal, as the FAA has refused to give a commercial operator's license to any private space company.[34]
The United States updated US commercial space legislation with the passage of the SPACE Act of 2015 in November 2015.[35] The full name of the act is Spurring Private Aerospace Competitiveness and Entrepreneurship Act of 2015
The update US law explicitly allows "US citizens to engage in the commercial exploration and exploitation of 'space resources' [including... water and minerals]". The right does not extend to biological life, so anything that is alive may not be exploited commercially.[36] The Act further asserts that "the United States does not [(by this Act)] assert sovereignty, or sovereign or exclusive rights or jurisdiction over, or the ownership of, any celestial body". [36]
The SPACE Act includes the extension of indemnification of US launch providers for extraordinary catastrophic third-party losses of a failed launch through 2025, while the previous indemnification law was scheduled to expire in 2016. The Act also extends, through 2025, the "learning period" restrictions which limit the ability of the FAA to enact regulations regarding the safety of spaceflight participants.[33]
Indemnification for extraordinary third-party losses has, as of 2015, been a component of US space law for over 25 years, and during this time, "has never been invoked in any commercial launch mishap".[33]
Russian privatization
In 1992, a Resurs-500 capsule containing gifts was launched from Plesetsk Cosmodrome in a private spaceflight called Europe-America 500. The flight was conceived by the Russian Foundation for Social Inventions and TsSKB-Progress, a Russian rocket-building company, to increase trade between Russia and USA, and to promote the use of technology once reserved only for military forces. Money for the launch was raised from a collection of Russian companies. The capsule parachuted into the Pacific Ocean and was brought to Seattle by a Russian missile-tracking ship.
The Russian government sold part of its stake in RSC Energia to private investors in 1994. Energia, together with Khrunichev, constituted most of the Russian crewed space program.[來源請求][需要更新]
Launch alliances
Since 1995 Khrunichev's Proton rocket has been marketed through International Launch Services, while the Soyuz rocket is marketed via Starsem. The Sea Launch project flies the Ukrainian Zenit rocket.
In 2003, Arianespace joined with Boeing Launch Services and Mitsubishi Heavy Industries to create the Launch Services Alliance. In 2005, continued weak commercial demand for EELV launches drove Lockheed Martin and Boeing to propose a joint venture called the United Launch Alliance to service the United States government launch market.[37]
Spaceflight privatization
Since the 1980s, various private initiatives have started up to pursue the private use of space. Traditional costs to launch anything to space have been high—on the order of tens of thousands of US dollars per kilogram—but by 2020, costs on the order of a few thousand dollars per kilogram are being seen from one private launch provider that was an early 2000s startup, with the cost projected to fall to less than a few hundred dollars per kilogram as the technology of a second private spaceflight startup of ~2000 comes into service.[8]
The first privately funded rocket to reach the boundary of space, the Kármán line, (although not orbit) was Conestoga I, which was launched by Space Services Inc. on a suborbital flight to 309公里(192英里) altitude on 9 September 1982.[38][39] In October 1995, their first (and only) attempt at an orbital launch, Conestoga 1620, failed to achieve orbit due to a guidance system failure.[40]
On April 5, 1990, Orbital Sciences Corporation's Pegasus, an air launched rocket, was the first launch vehicle fully developed by a private company to reach orbit.[41]
In the early 2000s, several public-private corporate partnerships were established in the United States to privately develop spaceflight technology. Several purely private initiatives have shown interest in private endeavors to the inner Solar System.[42]
In 2006, NASA initiated a program to purchase commercial space transport to carry cargo to the International Space Station, while funding a portion of the development of new technology in a public-private partnership.[7]:10
In May 2015, the Japanese legislature considered legislation to allow private company spaceflight initiatives in Japan.[43]
In 2016, the United States granted its first clearance for a private flight to the moon, from the FAA's Office of Commercial Space Transportation.[44]
On 30 May 2020, Crew Dragon Demo-2 operated by Space X became the first crewed mission to the International Space Station in the Commercial Crew Program.
After 2015, European-based private small-lift launch vehicle development got underway, particularly in Germany, Italy, and the United Kingdom, but "France has largely been left out of this new commercial launch industry".[45] In 2021, the Government of France announced a plan to fund the "France-based rocket firm ArianeGroup to develop a new small-lift rocket called Maïa by the year 2026,"[45] which would be a government-funded but commercially-developed rocket.
商業航天實體
Today many commercial space transportation companies offer launch services to satellite companies and government space organizations around the world. In 2005, there were 18 total commercial launches and 37 non-commercial launches. Russia flew 44% of commercial orbital launches, while Europe had 28% and the United States had 6%.[46] China's first private launch, a suborbital flight by OneSpace, took place in May 2018.[47]
Funding
In recent years, the funding to support private spaceflight has begun to be raised from a larger pool of sources than the comparatively limited pool of the 1990s. For example, 截至2013年6月[update] and in the United States alone, ten billionaires had made "serious investments in private spaceflight activities"[48] at six companies, including Stratolaunch Systems, Planetary Resources, Blue Origin, Virgin Galactic, SpaceX, and Bigelow Aerospace. The ten investors were Paul Allen, Larry Page, Eric Schmidt, Ram Shriram, Charles Simonyi, Ross Perot Jr., Jeff Bezos, Richard Branson, Elon Musk, and Robert Bigelow.[來源請求]
At the start of the private space era it was not yet clear to what extent these entrepreneurs see "legitimate business opportunity, [for example], space tourism and other commercial activities in space, or [are] wealthy men seeking the exclusivity that space offers innovators and investors."[48] There has been speculation as to whether these investments are a "gamble", and whether they will prove lucrative.[48]
As of the early 2020's some of these investments have paid off, with Musk's SpaceX coming to dominate the launch market in mass to orbit and with a $100 billion dollar valuation.[49][50] Other companies such as Bigelow Aerospace have though collapsed and left the market.[51] Many startup space companies such as Rocket Lab and Axiom Space have launched on the stock market for funding as Special-purpose acquisition company, but their SPAC values have been affected by market volatility.[52]
Venture capital investment
Some investors see the traditional spaceflight industry as ripe for disruption, with "a 100-fold improvement [relatively straightforward and|orig=is actually a piece of cake, and making] a thousand-fold improvement [possible]".[53] Between 2005 and 2015, there was 10 billion美元 of private capital invested in the space sector,[54] most of it in the United States. This liberalized private space sector investments beginning in the 1980s,[26] with additional legislative reforms in the 1990s–2000s.[23][30][32] From 2000 through the end of 2015, a total of 13.3 billion美元 of investment finance was invested in the space sector, with 2.9 billion美元 of that being venture capital.[55] In 2015, venture capital firms invested 1.8 billion美元 in private spaceflight companies, more than they had in the previous 15 years combined.[55] 截至2015年10月[update], the largest and most active investors in space were Lux Capital, Bessemer Venture Partners, Khosla Ventures, Founders Fund, RRE Ventures and Draper Fisher Jurvetson.[54]
Increasing interest by investors in economically driven spaceflight had begun to appear by 2016, and some space ventures had to turn away investor funding.[53] CBInsights in August 2016 published that funding to space startups was "in a slump", although the number of space investment deals per quarter had gone from 2 or 3 in 2012 to 14 by 2015.[56] In 2017, CB Insights ranked the most active space tech investors, ranked from highest to lowest, were Space Angels Networks, Founders Fund, RRE Ventures, Data Collective, Bessemer, Lux Capital, Alphabet, Tencent Holdings, and Rothenberg Ventures.[57] In June 2019, Miriam Kramer of Axios wrote that private spaceflight companies and investors were poised to capitalize on NASA's plan to open up the International Space Station to commercial space ventures.[58]
Commercial launchers
The space transport business has, historically, had its primary customers in national governments and large commercial segments. Launches of government payloads, including military, civilian and scientific satellites, was the largest market segment in 2007 at nearly $100 billion a year. This segment is dominated by domestic favorites such as the United Launch Alliance for U.S. government payloads and Arianespace for European satellites. The commercial payload segment, valued at under $3 billion a year, was dominated by Arianespace in 2007, with over 50% of the market segment,[59] followed by Russian launchers. See a complete list of launch systems.
Spaceflight, Inc. operates as a launch broker, matching small-payload customers with launch providers in a "ridesharing" service.
US government commercial cargo services
The US government determined to begin a process to purchase orbital launch services for cargo deliveries to the International Space Station (ISS) beginning in the mid-2000s, rather than operate the launch and delivery services as they had with the Space Shuttle, which was to retire in less than half a decade, and ultimately did retire in 2011. On 18 January 2006, NASA announced an opportunity for US commercial providers to demonstrate orbital transportation services.[60] As of 2008, NASA planned to spend $500 million through 2010 to finance development of private sector capability to transport payloads to the International Space Station (ISS).[需要更新] This was considered more challenging than then-available commercial space transportation because it would require precision orbit insertion, rendezvous and possibly docking with another spacecraft. The commercial vendors competed in specific service areas.[61]
In August 2006, NASA announced that two relatively young aerospace companies, SpaceX and Rocketplane Kistler, had been awarded $278 million and $207 million, respectively, under the COTS program.[62] In 2008, NASA anticipated that commercial cargo delivery services to and return services from the ISS would be necessary through at least 2015. The NASA Administrator suggested that space transportation services procurement may be expanded to orbital fuel depots and lunar surface deliveries should the first phase of COTS prove successful.[63]
After it transpired that Rocketplane Kistler was failing to meet its contractual deadlines, NASA terminated its contract with the company in August 2008, after only $32 million had been spent. Several months later, in December 2008, NASA awarded the remaining $170 million in that contract to Orbital Sciences Corporation to develop resupply services to the ISS.[64]
Emerging personal spaceflight
Before 2004, the year it was legalized in the US, no privately operated crewed spaceflight had ever occurred. The only private individuals to journey to space went as space tourists in the Space Shuttle or on Russian Soyuz flights to Mir or the International Space Station.
All private individuals who flew to space before Dennis Tito's self-financed International Space Station visit in 2001 had been sponsored by their home governments or by private corporations.[65] Those trips include US Congressman Bill Nelson's January 1986 flight on the Space Shuttle Columbia and Japanese television reporter Toyohiro Akiyama's 1990 flight to the Mir Space Station.
The Ansari X PRIZE was intended to stimulate private investment in the development of spaceflight technologies. 21 June 2004, test flight of SpaceShipOne, a contender for the X PRIZE, was the first human spaceflight in a privately developed and operated vehicle.
On 27 September 2004, following the success of SpaceShipOne, Richard Branson, owner of Virgin and Burt Rutan, SpaceShipOne's designer, announced that Virgin Galactic had licensed the craft's technology, and were planning commercial space flights in 2.5 to 3 years. A fleet of five craft (SpaceShipTwo, launched from the WhiteKnightTwo carrier airplane) were to be constructed, and flights would be offered at around $200,000 each, although Branson said he planned to use this money to make flights more affordable in the long term. A test flight of SpaceShipTwo in October 2014 resulted in a crash during one of the two pilots died.[66]
In December 2004, United States President George W. Bush signed into law the Commercial Space Launch Amendments Act.[67] The Act resolved the regulatory ambiguity surrounding private spaceflights and is designed to promote the development of the emerging U.S. commercial human space flight industry.
On 12 July 2006, Bigelow Aerospace launched the Genesis I, a subscale pathfinder of an orbital space station module. Genesis II was launched on 28 June 2007, and there are plans for additional prototypes to be launched in preparation for the production model BA 330 spacecraft.[需要更新]
Zero2infinity, a Spanish aerospace company, is developing a high-altitude balloon-based launch vehicle termed a bloostar to launch small satellites to orbit for customers, as well as platform for near-space tourism.[68] World View, a stratospheric balloon exploration company based in Tucson, Ariz., is similarly leveraging its stratospheric balloon technology to launch its remote sensing services[69] for government and commercial customers, as well as developing its own space tourism offering that would lift passengers up to 100,000 feet for a 6-8 journey.[70] Similar projects of stratospheric balloon tourism are being developed by multiple other companies around the world (Zephalto,[71] Space Perspective,[72] ...), though none has yet made a high altitude crewed flight (as of Feb. 2021).
On July 11, 2021, Richard Branson and Virgin Galactic made the first successful flight to space.[73]
On July 20, 2021, Jeff Bezos and Blue Origin also made a successful flight to space.[74]
On September 16, 2021, Crew Dragon Resilience Inspiration4 mission operated by Space X became the first orbital spaceflight with only private citizens aboard.
Private foundations
The B612 Foundation was[75] designing and building an asteroid-finding space telescope named Sentinel.[76] It would have launched in 2016.[77]
The Planetary Society, a nonprofit space research and advocacy organization, has sponsored a series of small satellites to test the feasibility of solar sailing. Their first such project, Cosmos 1, was launched in 2005 but failed to reach space, and was succeeded by the Lightsail series, the first of which launched on 20 May 2015. A second spacecraft is expected to launch in 2016 on a more complex mission.[78]
Copenhagen Suborbitals is a crowd funded amateur crewed space programme. 截至2016年[update] it has flown four home-built rockets and two mock-up space capsules.
發展計劃
Many have speculated on where private spaceflight may go in the near future. Numerous projects of orbital and suborbital launch systems for satellites and crewed flights exist. Some orbital crewed missions would be state-sponsored like most COTS participants. (that develop their own launch systems). Another possibility is for paid suborbital tourism on craft like those from Virgin Galactic, Space Adventures, XCOR Aerospace, RocketShip Tours, ARCASPACE, PlanetSpace-Canadian Arrow, British Starchaser Industries or non-commercial like Copenhagen Suborbitals. Additionally, suborbital spacecraft have applications for faster intercontinental package delivery and passenger flight.
Private orbital spaceflight, space stations
SpaceX's Falcon 9 rocket, first launched in 2010 with no passengers,[79] was designed to be subsequently human-rated. The Atlas V launch vehicle is also a contender for human-rating.
Plans and a full-scale prototype for the SpaceX Dragon, a capsule capable of carrying up to seven passengers, were announced in March 2006,[80] and Dragon version 2 flight hardware was unveiled in May 2014.[81] 截至2014年9月[update], both SpaceX and Boeing have received contracts from NASA to complete building, testing, and flying up to six flights of human-rated space capsules to the International Space Station beginning in 2017.[82]
In December 2010, SpaceX launched the second Falcon 9 and the first operational Dragon spacecraft. The mission was deemed fully successful, marking the first launch to space, atmospheric reentry and recovery of a capsule by a private company. Subsequent COTS missions included increasingly complex orbital tasks, culminating in Dragon first docking to the ISS in 2012.
Bigelow Aerospace develops BA 330 module (based on the former NASA TransHab design) intended to be used for activities like microgravity research, space manufacturing, and space tourism with modules serving as orbital "hotels". To promote private crewed launch efforts, Bigelow offered the US$50 million America's Space Prize for the first US-based privately funded team to launch a crewed reusable spacecraft to orbit on or before 10 January 2010; such feat is yet to be achieved 截至2018年12月[update].
The British Government partnered in 2015 with the ESA to promote a possibly commercial single-stage to orbit spaceplane concept called Skylon.[83] This design was pioneered by the privately held Reaction Engines Limited,[84][85] a company founded by Alan Bond after HOTOL was canceled.[86]
As of 2012, private company NanoRacks provides commercial access to the US National Laboratory space on the International Space Station (ISS). Science experiments can be conducted on a variety of standard rack-sized experimental platforms, with standard interfaces for power and data acquisition.[87]
SpaceX announced that Japanese entrepreneur Yusaku Maezawa will launch with the dearMoon crew in 2023 to become to first civilian on a lunar Starship mission.[88][89]
On-orbit propellant depots
In a presentation given 15 November 2005 to the 52nd Annual Conference of the American Astronautical Society, NASA Administrator Michael D. Griffin suggested that establishing an on-orbit propellant depot is, "Exactly the type of enterprise which should be left to industry and to the marketplace."[90] At the Space Technology and Applications International Forum in 2007, Dallas Bienhoff of Boeing made a presentation detailing the benefits of propellant depots.[91] Shackleton Energy Company has established operational plans, an extensive teaming and industrial consortium for developing LEO Propellant Depots supplied by Lunar polar sourced water ice.[92]
Asteroid mining
Some have speculated on the profitability of mining metal from asteroids. According to some estimates, a one kilometer-diameter asteroid would contain 30 million tons of nickel, 1.5 million tons of metal cobalt and 7,500tons of platinum; the platinum alone would have a value of more than $150 billion at 2008 terrestrial prices.[93]
Space elevators
A space elevator system is a possible launch system, currently under investigation by at least one private venture.[94] There are concerns over cost, general feasibility and some political issues. On the plus side the potential to scale the system to accommodate traffic would (in theory) be greater than some other alternatives. Some factions contend that a space elevator — if successful — would not supplant existing launch solutions but complement them.
Non-launched efforts
Failed spaceflight ventures
After earlier first effort of OTRAG, in the 1990s the projection of a significant demand for communications satellite launches attracted the development of a number of commercial space launch providers. The launch demand largely vanished when some of the largest satellite constellations, such as 288 satellite Teledesic network, were never built.
In 1996, NASA selected Lockheed Martin Skunk Works to build the X-33 VentureStar prototype for a single stage to orbit (SSTO) reusable launch vehicle. In 1999, the subscale X-33 prototype's composite liquid hydrogen fuel tank failed during testing. At project termination on 31 March 2001, NASA had funded US$912 million of this wedge shaped spacecraft while Lockheed Martin financed US$357 million of it.[95] The VentureStar was to have been a full-scale commercial space transport operated by Lockheed Martin.
In 1997, Beal Aerospace proposed the BA-2, a low-cost heavy-lift commercial launch vehicle. On 4 March 2000, the BA-2 project tested the largest liquid rocket engine built since the Saturn V.[96] In October 2000, Beal Aerospace ceased operations citing a decision by NASA and the Department of Defense to commit themselves to the development of the competing government-financed EELV program.[97]
In 1998, Rotary Rocket proposed the Roton, a Single Stage to Orbit (SSTO) piloted Vertical Take-off and Landing (VTOL) space transport.[98] A full scale Roton Atmospheric Test Vehicle flew three times in 1999. After spending tens of millions of dollars in development the Roton failed to secure launch contracts and Rotary Rocket ceased operations in 2001.
On 28 September 2006, Jim Benson, SpaceDev founder, announced he was founding Benson Space Company with the intention of being first to market with the safest and lowest cost suborbital personal spaceflight launches, using the vertical takeoff and horizontal landing Dream Chaser vehicle based on the NASA HL-20 Personnel Launch System vehicle.[需要更新]
Excalibur Almaz had plans in 2007 to launch a modernized TKS Spacecraft (for Almaz space station), for tourism and other uses. It was to feature the largest window ever on a spacecraft. Their equipment was never launched, and their hangar facility closed in 2016. It is to be converted into an educational exhibit.[99]
Escape Dynamics operated from 2010 to 2015, with the goal of making single-stage to orbit spaceplanes.[100]
In December 2012, the Golden Spike Company announced plans to privately transport space exploration participants to the surface of the Moon and return, beginning as early as 2020, for US$750 million per passenger.[101]
XCOR Aerospace planned to initiate a suborbital commercial spaceflight service with the Lynx rocketplane in 2016 or 2017 at $95,000. The first test flights were to be conducted by 23 pilots from the Axe Apollo Space Academy, were planned for 2015.[102][103][104]
Private space stations
By 2010, Bigelow Aerospace was developing the Next-Generation Commercial Space Station, a private orbital space complex. The space station was to have been constructed of both Sundancer and B330 expandable modules as well as a central docking node, propulsion, solar arrays, and attached crew capsules. Initial launch of space station components was planned for 2014, with portions of the station projected to be available for leased use as early as 2015.[105] 截至2021年10月[update], no launches have taken place.
Lunar private ventures
Robotic Lunar-surface missions
The following companies and organizations had made initial funded launch commitments for Google Lunar X Prize-related Lunar launches in 2016:
Private Lunar-surface crewed expeditions
- Shackleton Energy Company[111] intends to undertake human tended lunar prospecting for water ice. If significant reserves of ice are located, they plan to establish a network of "refueling service stations" in low Earth orbit and on the Moon to process and provide fuel and consumables for commercial and government customers. If the prospecting is successful—ice deposits are located, the appropriate legal regime is in place to support commercial development, and the ice can be extracted — Shackleton proposes to establish a fuel-processing operation on the lunar surface and in propellant depots in Low Earth Orbit. Equipment would melt the ice and purify the water, "electrolyze the water into gaseous hydrogen and oxygen, and then condense the gases into liquid hydrogen and liquid oxygen and also process them into hydrogen peroxide, all of which could be used as rocket fuels."
Mars exploration
In June 2012, private Dutch non-profit, Mars One, announced a private one-way (no return) human mission to Mars with the aim to establish a permanent human colony on Mars.[112] The plan was to send a communication satellite and pathfinder lander to the planet by 2016 and, after several stages, land four humans on the Martian surface for permanent settlement in 2023.[113] A new set of four astronauts would then arrive every two years.[114]
Mars One has received a variety of criticism, mostly relating to medical,[115] technical and financial feasibility. There are also unverified claims that Mars One is a scam designed to take as much money as possible from donors, including reality show contestants.[116][117] Many have criticized the project's US$6 billion budget as being too low to successfully transport humans to Mars, to the point of being delusional.[118][119] A similar project study by NASA estimated the cost of such a feat at US$100 billion, although that included transporting the astronauts back to Earth. Objections have also been raised regarding the reality TV project associated with the expedition. Given the transient nature of most reality TV ventures, many believe that as viewership declines, funding could significantly decrease, thereby harming the entire expedition. Further, contestants have reported that they were ranked based on their donations and funds raised.[116][120]
In February 2013, the US nonprofit Inspiration Mars Foundation announced a plan to send a married couple on a 2018 mission to travel to Mars and back to Earth on a 501-day round trip, with no landing planned on Mars.[121] The mission would have taken advantage of an infrequently occurring free return trajectory—a unique orbit opportunity which occurs only once every fifteen years—and will allow the space capsule to use the smallest possible amount of fuel to get it to Mars and back to Earth. The two-person American crew – a man and a woman – will orbit around Mars at a distance of 100英里(160公里) of the surface.[122] "If anything goes wrong, the spacecraft should make its own way back to Earth — but with no possibility of any shortcuts home."[123]
On September 27, 2016, at the 67th annual meeting of the International Astronautical Congress, Elon Musk unveiled substantial details of the Interplanetary Transport System (ITS) design for the transport vehicles—including size, construction material, number and type of engines, thrust, cargo and passenger payload capabilities, on-orbit propellant-tanker refills, representative transit times, etc.—as well as a few details of portions of the Mars-side and Earth-side infrastructure that SpaceX intends to build to support the flight vehicles. In addition, Musk championed a larger systemic vision, a vision for a bottom-up emergent order of other interested parties—whether companies, individuals, or governments—to utilize the new and radically lower-cost transport infrastructure to build up a sustainable human civilization on Mars, potentially, on numerous other locations around the Solar System, by innovating and meeting the demand that such a growing venture would occasion.[124][125]
In July 2017, SpaceX made public plans for ITS based on a smaller launch vehicle and spacecraft. The new system architecture has "evolved quite a bit" since the November 2016 articulation of the very large "Interplanetary Transport System". A key driver of the new architecture is to make the new system useful for substantial Earth-orbit and cislunar launches so that the new system might pay for itself, in part, through economic spaceflight activities in the near-Earth space zone.[126][127] The Super Heavy is designed to fulfill the Mars transportation goals while also launching satellites, servicing the ISS, flying humans and cargo to the Moon, and enabling ballistic transport of passengers on Earth as a substitute to long-haul airline flights.[128]
Since March 2020, SpaceX conducted several test flights of their Starship spacecraft. The Starship is a fully reusable two-stage vehicle designed to take passengers and cargo to the Moon, Mars, and beyond. SpaceX had initially planned to have an orbital-flight in 2021. On Wednesday, May 5, 2021, the twelfth Starship prototype (SN15) made a 10 km suborbital flight and achieved soft landing. SpaceX is currently in the process of improving and understanding the Starship spacecraft.[88]
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- ^ Berger, Eric. Musk's Mars moment: Audacity, madness, brilliance—or maybe all three. Ars Technica. 2016-09-28 [2016-10-13]. (原始內容存檔於2016-10-13).
- ^ Foust, Jeff. Can Elon Musk get to Mars?. SpaceNews. 2016-10-10 [2016-10-12]. (原始內容存檔於2016-10-13).
- ^
Elon Musk. Elon Musk, ISS R&D Conference (video). ISS R&D Conference, Washington DC, USA. 事件發生在 49:48–51:35. 2017-07-19 [2017-09-13]. (原始內容存檔於2021-12-21).
the updated version of the Mars architecture: Because it has evolved quite a bit since that last talk. ... The key thing that I figured out is how do you pay for it? if we downsize the Mars vehicle, make it capable of doing Earth-orbit activity as well as Mars activity, maybe we can pay for it by using it for Earth-orbit activity. That is one of the key elements in the new architecture. It is similar to what was shown at IAC, but a little bit smaller. Still big, but this one has a shot at being real on the economic front.
- ^ Grush, Loren. Elon Musk plans to put all of SpaceX's resources into its Mars rocket. The Verge. 2017-09-29 [2017-09-29]. (原始內容存檔於2017-09-29).
- ^ Blewitt, Richard Tyr. Elon Musk's plans for the Big Fucking Rocket: Mars, Moon, and Earth. Neowin. 2017-09-29 [2017-09-29]. (原始內容存檔於2017-09-29).
- Belfiore, Michael. Rocketeers: How a Visionary Band of Business Leaders, Engineers, and Pilots is Boldly Privatizing Space. Harper Paperbacks, 2008.
- Bizony, Piers. How to Build Your Own Spaceship: The Science of Personal Space Travel. Plume, 2009.
外部連結
- Climbing a Commercial Stairway to Space: A Plausible Timeline (頁面存檔備份,存於網際網路檔案館) RLV News, 2 February 2006
- An Introduction to Private Spaceflight Space Liberates Us!, 20 March 2007
- Study defining personal spaceflight industry (頁面存檔備份,存於網際網路檔案館) Space Fellowship, 29 May 2008
政府
企業風投
- C&SPACE (頁面存檔備份,存於網際網路檔案館)
- Starchaser Industries (頁面存檔備份,存於網際網路檔案館)
- Space Services, Inc. (頁面存檔備份,存於網際網路檔案館)
- Commercial Space Companies (頁面存檔備份,存於網際網路檔案館) at the Space Frontier Foundation
- Astrobotic (頁面存檔備份,存於網際網路檔案館)
媒體報道
- A Word from the Know-Nothing Bureaucrats[失效連結] NASA union viewpoint on private spaceflight
- Private Industry Can Help NASA Open the Space Frontier (頁面存檔備份,存於網際網路檔案館) Space Frontier Foundation, 14 February 2005