boeing reusable spacecraft


To return to Kennedy Space Center, the X-37 is placed into a payload canister and loaded into a Boeing C-17 cargo plane. [90][91], The fifth X-37B mission, designated USA-277 in orbit,[61] was launched from Kennedy Space Center Launch Complex 39A on 7 September 2017 at 14:00 UTC, just before the arrival of Hurricane Irma. The OTV program was built on earlier industry and government efforts by DARPA, NASA, and the Air Force under the leadership of the Air Force Rapid Capabilities Office in partnership with NASA and the Air Force Research Laboratory. Her team spirit, coaching skills and strategizing plays a critical role on the Starliner fluids team. Fuelled with military fuel JP-8 and hydrogen peroxide, the Rocketdyne engine of the X-37 is designed to run for nine months. Copyright © 1995 - 2020 Boeing. Space Launch Complex 41 has been used only for non-crew spacecraft to this point, hosting Titan rockets beginning in 1965 and then the Atlas V since 2002. Notable NASA missions launched from the Starliner launch pad include the Viking robots that landed on Mars, the Voyager spacecraft that toured the outer planets, the New Horizons probe that flew past Pluto, and the Curiosity rover currently traversing Mars. [15], On 17 November 2006, the U.S. Air Force announced that it would develop its own variant from NASA's X-37A. Chris Ferguson, commander of the final space shuttle flight, virtually returns to space in the Boeing Crew Space Transportation (CST)-100 simulator. [96] The mission was completed with the vehicle landing at the Shuttle Landing Facility on 27 October 2019 at 07:51 UTC. The X-37 is operated by the United States Space Force, and was previously operated by Air Force Space Command[3] until 2019 for orbital spaceflight missions intended to demonstrate reusable space technologies. Posted on January 24, 2020. The X-37 is principally used for space exploration, risk reduction and developing reusable space vehicle technologies. Boeing-developed training devices provide Starliner crews extensive training on the most technologically advanced, proven and integrated systems, ensuring astronauts learn how to handle any situation that could arise in the harsh environment of space, even with a spacecraft that is designed to be autonomous. Each of the reusable hydrogen-fueled engines powered multiple space shuttle missions, but they will be discarded with the SLS core stage, which is only designed for a single flight. [8] The spaceplane's thermal protection system is built upon previous generations of atmospheric reentry spacecraft,[51] incorporating silica ceramic tiles. (Boeing photo) Boeing recently completed its formal requalification of the CST-100 Starliner’s flight software in preparation for its next flight. The mission will deploy FalconSAT-8, a small satellite developed by the U.S. Air Force Academy and sponsored by the Air Force Research … To prepare, employees are testing the spacecraft to the outer limits. The airflow diverter valve helps keep astronauts cool and comfortable, while permeable layers allow water vapor – but not air – to pass through the suit fabric. CST-100 Starliner (CST für Crew Space Transportation) ist ein in Entwicklung befindliches bemanntes und wiederverwendbares Raumschiff, hergestellt von Boeing. Several billion points of data prove Starliner is structurally sound for flight. On 22 May 2010, the spacecraft was in an inclination of 39.99°, circling the Earth once every 90 minutes on an orbit 249 by 262 miles (401 by 422 km). Boeing and SpaceX both hold multibillion-dollar contracts with NASA to fly astronauts to and from the International Space Station. Starliner adapted a best … The world's largest and most efficient twin-engine jet. [35], Astronomer Jonathan McDowell, editor of Jonathan's Space Report, has stated that satellites launched from the X-37B were not reported, as required by the Registration Convention, to the United Nations Office for Outer Space Affairs so other parties to the convention would not know about them. Check out the Starliner Gallery. Boeing was the prime contractor for the OTV program. [49][50], The technologies demonstrated in the X-37 include an improved thermal protection system, enhanced avionics, an autonomous guidance system and an advanced airframe. Boeing is committed to serving and supporting its customers. [95] While the complete payload for OTV-5 is classified, the Air Force announced that one experiment flying is the Advanced Structurally Embedded Thermal Spreader II (ASETS-II), which measures the performance of an oscillating heat pipe. Starliner also has wireless internet and tablet technology for crew interfaces. Boeing is targeting March 29, 2021 for the launch of its second uncrewed Starliner on a test flight to the International Space Station. [33] The U.S. Air Force has stated that the X-37B is testing a Hall-effect thruster system for Aerojet Rocketdyne. 1600 x 1200, 1280 x 800 [24][47] The X-37 launches atop an Atlas V 501[24][17] or a SpaceX Falcon 9 rocket. Teams are working to complete outfitting of the vehicle’s interior before loading cargo and conducting final spacecraft checkouts. This was the first such landing since the Soviet Buran shuttle in 1988. This contrasts with conventional spacecraft which are designed to be expended (thrown away, allowed to burn during reentry) after use. The X-37 began as a NASA project in 1999, before being transferred to the United States Department of Defense in 2004. [23] NASA furthermore stated that renovations of the two hangars would be completed by the end of 2014; the main doors of OPF-1 were marked with the message "Home of the X-37B" by this point. Lightweight. It is autonomous. Boeing had said the space planes would use OPF-1 in January 2014, and the Air Force had previously said it was considering consolidating X-37B operations, housed at Vandenberg Air Force Base in California, nearer to their launch site at Cape Canaveral. [29], In November 2016, the International Business Times speculated that the U.S. government was testing a version of the EmDrive electromagnetic microwave thruster on the fourth flight of the X-37B. It is a 120-percent-scaled derivative of the earlier Boeing X-40. [6][16][17] The X-37B was designed to remain in orbit for up to 270 days at a time. The X-37 is operated by the United States Space Force, and was previously operated by Air Force Space Command until 2019 for orbital spaceflight missions intended to demonstrate reusable space technologies. The Starliner was designed to accommodate seven passengers, or a mix of crew and cargo, for missions to low-Earth orbit. In addition to both an uncrewed and a crewed flight test, NASA has ordered six Boeing crew rotation missions to the International Space Station aboard the Starliner, which will be Boeing's first commercial human spaceflight missions. Boeing plans to rotate between two reusable crew modules for all planned Starliner missions. The CST-100 Starliner, Boeing’s Crew Space Transportation vehicle, is scheduled to make its first trip carrying astronauts in 2018. [80], In 2011, Boeing announced plans for a scaled-up variant of the X-37B, referring to it as the X-37C. Boeing’s global reach includes customers in approximately 150 countries and employees and operations in more than 65 countries. A reusable launch system is a launch system that allows for the reuse of some or all of the component stages. During its, Defense Advanced Research Projects Agency, EmDrive electromagnetic microwave thruster, United Nations Office for Outer Space Affairs, "U.S. military's X-37B spaceplane lands in Florida", "ULA Atlas V launches sixth mission for X-37B spaceplane", https://spaceflightnow.com/2020/08/18/pentagon-plans-to-keep-x-37b-spaceplane-under-air-force-management, "X-37 Technology Demonstrator: Blazing the trail for the next generation of space transportation systems", "Air Force Bloggers Roundtable: Air Force set to launch first X-37B Orbital Test Vehicle", "Air Force spaceplane is an odd bird with a twisted past", "NASA, Boeing Enter Cooperative Agreement to Develop and Fly X-37 Technology Demonstrator", "X-37 Flies at Mojave But Encounters Landing Problems", "U.S. Air Force Pushes For Orbital Test Vehicle", "Atlas rocket delivers Air Force spaceplane to orbit", "Air Force X-37B spaceplane arrives in Florida for launch", "USAF To Launch First Spaceplane Demonstrator", "Air Force's second robotic space shuttle circling Earth", "NASA: Secret X-37B space plane will use shuttle hangars", "Now We Know at Least Two Payloads on the X-37B", "The Militarization of Outer Space: The Pentagon's Space Warriors", "US 'space warplane' may be spying on Chinese spacelab", "Expert: U. S. Secret Space Plane Not Likely 'Spying' on China Module", "X-37B secret space plane's mission remains mystery outside US military", "Space race revealed: US and China test futuristic EmDrive on Tiangong-2 and mysterious X-37B plane", "Second generation EmDrive propulsion applied to SSTO launcher and interstellar probe", "Propellentless Space Propulsion Research Continues", "X-37B launch date firms up as new details emerge about experiment", "Former SecAF Explains How Secret X-37 Space Plane Throws Off Enemies", "Does US space plane X-37B mark start of new military frontier? Boeing-built Tracking and Data Relay Satellites (TDRS) provide high-bandwidth communications between Earth-orbiting spacecraft and facilities on the ground. DARPA’s XS-1 Experimental Spaceplane is conceived as a reusable, unmanned booster with costs, operation and reliability similar to modern aircraft. Learn More . The Starliner’s economic impact can be seen across the United States, with more than 425 suppliers in 37 states. NASA astronauts try out a new generation of training simulators for Boeing's CST-100 Starliner capsule. The reusable CST-100 Starliner was launched atop a United Launch Alliance (ULA) Atlas V rocket from Cape Canaveral Air Force Station in Florida. Whenever. Subsequent flights gradually extended the mission duration, reaching 780 days in orbit for the fifth mission, the first to launch on a Falcon 9 rocket. Celebrate the contributions of women in aerospace and are committed to building a more equitable future. The Starliner uses a proven parachute and airbag system to land on ground, which allows the capsule to be reused up to 10 times. The Boeing Starliner, formerly known as the CST-100, is one of two human-rated capsules that is being developed under the CCP. The Starliner adapted a best practice from the commercial industry, with backup manual controls for the pilot. Building a Core Capability for NASA. [72] In April 2012, General William L. Shelton of the Air Force Space Command declared the ongoing mission a "spectacular success". An innovative weldless design eliminates the structural risks of traditional welds, and it also reduces mass and production time. 1024 x 768 Starliner’s crew access tower is the first new access tower to be built along Florida’s Space Coast since the Apollo era. [12][102], The X-37B is a modified version of the NASA X-37A, built for the U.S. Air Force. Here's a brief overview of how it works. [24] Two were built and have been used for multiple orbital missions. The Starliner is a reusable spacecraft that combines a proven capsule architecture, materials and subsystem technologies with 21st century innovations. [22], On 8 October 2014, NASA confirmed that X-37B vehicles would be housed at Kennedy Space Center in Orbiter Processing Facilities (OPF) 1 and 2, hangars previously occupied by the Space Shuttle. The vehicle that was used as an atmospheric drop test glider had no propulsion system. The Starliner is completely autonomous, which reduces the amount of training time for crews. To date, several fully reusable suborbital systems and partially reusable orbital systems have been flown.. [80][84][85][86], The fourth X-37B mission, OTV-4, was codenamed AFSPC-5 and designated as USA-261 in orbit. The latest mission, the sixth, launched on an Atlas V on 17 May 2020. The soft, lightweight helmet zips instead of latches. The spacecraft will test a novel electromagnetic propulsion system, low-weight antenna technology and a commercial reaction wheel to provide attitude control in orbit. That ideal is still a long way off in reality but has been fully … [22][76][77], The third mission and second flight of the first X-37B, OTV-3 was originally scheduled to launch on 25 October 2012,[78] but was postponed because of an engine issue with the Atlas V launch vehicle. As final touches are being put on Boeing's next Starliner spacecraft to launch, the company has revealed a new Orbital Flight Test-2 (OFT-2) mission patch. Z30 720 x 1280, iPhone 5 640 x 1136 A tower astronauts will use to board Boeing’s Crew Space Transportation (CST)-100 Starliner is rising in the Florida skyline. The on-orbit … Fluid systems test engineer is a fierce competitor on and off the court, From music to space: Taking a love of exploring to new heights, NASA, Boeing Complete Series of Starliner Parachute Tests Ahead of Future Flights with Astronauts, Starliner Parachutes Perform Under Pressure, Starliner completes successful pad abort test, Parachute test proves Starliner can land safely in extreme circumstances, Ready for Orbit! [48] The spaceplane is designed to operate in a speed range of up to Mach 25 on its reentry. [59][80][81] Once in orbit, the spacecraft was designated USA-240. The Chinese reusable experimental spacecraft (Chinese: 可重复使用试验航天器; pinyin: Kě chóngfù shǐyòng shìyàn hángtiān qì; lit. The first reusable launch vehicle to reach orbit was the Space Shuttle (in 1981), which failed to accomplish the intended goal of reducing launch costs to below those of expendable launch … [64] Such an orbit is also common among civilian LEO satellites, and the spaceplane's altitude was the same as that of the ISS and most other crewed spacecraft. The Air Force version was designated the X-37B Orbital Test Vehicle (OTV). In addition, Boeing is the prime contractor for the X-37B Orbital Test Vehicle, the newest and most advanced unmanned re-entry spacecraft used by the U.S. Air Force to perform risk-reduction and experimentation for reusable space vehicle technologies. Z10 768 x 1280 NASA commissioned the two companies in 2014 to each build a reusable rocket-spacecraft system for transporting astronauts and payloads to the space station. Boeing thus will retain its title as the only company that has ever built reusable spacecraft designed to carry astronauts. ", "Mr. Gary Payton, Under Secretary of the Air Force for Space Programs, Media Teleconference (Pentagon), X-37B Launch", "Boeing's New Crew-Carrying Spaceship Taking Shape", "Pilotless US space plane lands after 469 days in orbit", "Peroxide (H2O2) Test Programs, AR2-3 Flight Certification", "AF's X-37B mini-shuttle shrouded in secrecy", "Inside the US Air Force's Next X-37B Space Plane Mystery Mission", "Secret X-37B Space Plane Spotted by Amateur Skywatchers", "Amateur astronomers unravel X37-B orbit, say likely use for deploying spy satellites", "Surveillance is Suspected as Spacecraft's Main Role", "Preparations underway for first landing of X-37B", "Home again: U.S. military space plane returns to Earth", "USAF's X-37B Spaceplane Returns to Earth", "X-37B US military spaceplane returns to Earth", "OTV 2 (USA 226) Satellite details 2011-010A NORAD 37375", "Secretive X-37B Space Plane Launches on New Mystery Mission", "Military space shuttle receives mission extension", "Air Force's secret X-37B a 'spectacular success, "Preparations underway for X-37B landing", "Air Force's Secretive X-37B Space Plane Will Land Soon", "X-37B lands this morning at Vandenberg AFB", "Air Force's secret X-37B space plane lands in Calif. after mystery mission", "Another Atlas 5 readied to launch mini space shuttle", "Air Force's Secret X-37B Space Plane Launches on Third Mission", "New Delay for Mysterious Military Space Plane Launch", "Air Force launches 3rd X-37B Orbital Test Vehicle", "US Air Force's shadowy space plane lands after 674 days in orbit", "Secret space plane lands at US air force base after unknown two-year mission", "X-37B Military Space Plane Lands After Record-Shattering Secret Mission", "Recap story: X-37B spaceplane embarks on fourth voyage in orbit", "Aerojet Rocketdyne's Modified XR-5 Hall Thruster Demonstrates Successful On-Orbit Operation", "US Air Force Launches X-37B Space Plane on 4th Mystery Mission", "X-37B spaceplane returns to Earth and makes autopilot landing in Florida", "Air Force's mysterious space plane lands, wakes up Florida", "SpaceX launches Air Force's spaceplane just before Hurricane Irma reaches Florida", "SpaceX launches first X-37B launch with a Falcon 9", "Air Force preparing to launch fifth Orbital Test Vehicle mission", "Mysterious X-37B Military Space Plane Nears 1 Year in Orbit", "Advanced Structurally Embedded Thermal Spreader II (ASETS-II)", "U.S. Airforce's X-37B returns to Earth with a 'boom' and a new record for spaceflight", "Payloads revealed for next flight of X-37B military spaceplane", "Next X-37B Orbital Test Vehicle Scheduled to Launch", "Upgraded X-37B spaceplane rockets into orbit aboard Atlas 5 launcher", "Secretive X-37B US Space Plane Could Evolve to Carry Astronauts", "Air Force to launch robotic winged space plane", "Launch of secret US space ship masks even more secret launch of new weapon", https://en.wikipedia.org/w/index.php?title=Boeing_X-37&oldid=1004776037, Military space program of the United States, 2000s United States experimental aircraft, Equipment of the United States Space Force, Articles with dead external links from January 2018, Articles with permanently dead external links, Short description is different from Wikidata, All Wikipedia articles written in American English, Articles containing potentially dated statements from October 2019, All articles containing potentially dated statements, Aircraft specs templates using more general parameter, Aircraft specs templates using more performance parameter, Articles with minor POV problems from July 2020, Creative Commons Attribution-ShareAlike License, First launch of Atlas V 501 configuration, First American autonomous orbital runway landing, First launch of an X-37B on SpaceX's Falcon 9 vehicle, Magnetogradient Electrostatic Plasma Thruster (MEP) – Novel electromagnetic propulsion system, Metamaterials Antenna (MMA) – Low size, weight, power antenna with phased-array like performance, Carbon nanotube experiment (CANOE) – RF cabling with carbon nanotube braiding flexed using shape-memory alloy, Attitude Control and Energy Storage (ACES) – Commercial reaction wheel modified into a flywheel for energy storage and release, SkyPad – Off-the-shelf cameras and GPUs integrated into low-SWAP (size, weight and power) package, This page was last edited on 4 February 2021, at 09:34. The Communications Cap Assembly within the helmet connects to the Starliner spacecraft, providing a critical communications loop with ground and space crews. Boeing designed the spacecraft to be reusable up to 10 times with a six-month processing turnaround time. Landing is done at one of three sites across the US: the Shuttle Landing Facility at Kennedy Space Center, Vandenberg Air Force Base, or Edwards Air Force Base. [9] Thereafter, the program became a classified project. The dual suit controller keeps suit pressure at a safe level. [79] It was successfully launched from Cape Canaveral SLC-41 on 11 December 2012 at 18:03 UTC. Every American spacecraft that has carried astronauts into space was designed and built by Boeing or Boeing’s heritage companies. In 1999, NASA selected Boeing Integrated Defense Systems to design and develop an orbital vehicle, built by the California branch of Boeing's Phantom Works. As of October 2019[update], the two operational X-37Bs have completed five orbital missions; they have spent a combined 2,865 days (7.85 years) in space. Previous launch sites have included SLC-41 and Kennedy Space Center LC-39A.[45][46]. Minimalistic. [53] The development of the X-37 was to "aid in the design and development of NASA's Orbital Space Plane, designed to provide a crew rescue and crew transport capability to and from the International Space Station", according to a NASA fact sheet. Boeing is the prime contractor for the X-37B Orbital Test Vehicle (OTV), an unmanned space vehicle that is used by the United States Air Force to explore reusable space vehicle technologies in support of long-term space objectives. Each flight will use a new service module, which provides propulsion and power generation capacity for the spacecraft. It also features wireless internet and tablet technology for crew interfaces. The Boeing CST-100 Starliner is one of two commercial spacecraft types that NASA plans to use for International Space Station flights. DARPA promoted the X-37 as part of the independent space policy that the United States Department of Defense has pursued since the 1986 Challenger disaster. ), Right-click on the image (control-click on a Mac), Select the option 'Set the Background' or 'Set as Wallpaper' (or similar). Starliner passed another major test, demonstrating that its parachute landing system can provide a safe landing for the capsule and its crew. [104], Data from USAF,[24][51] Boeing,[105] Air & Space Magazine,[102] and Phys.org[106], Aircraft of comparable role, configuration, and era. Over a four-year period, a total of US$192 million was spent on the project, with NASA contributing $109 million, the U.S. Air Force $16 million, and Boeing $67 million. The Boeing X-37, also known as the Orbital Test Vehicle (OTV), is a reusable robotic spacecraft. Boeing and NASA partner with top trauma health care providers to ensure crew safety during Starliner landings. The Boeing CST-100 Starliner's first mission ended historically when it became the first American orbital space capsule to land on American soil rather than in an ocean. Creating space conditions to prove Starliner is ready for flight. Boeing also recently completed the formal requalification of Starliner’s OFT-2 … The X-37B’s sixth mission is the first to use a service module with additional payload capability to support a variety of experiments for multiple government partners. This figure is based on pre-launch design estimates; it does not reflect the spacecraft's actual performance capacity. It was the second flight of the second X-37B vehicle. The mission called … [20] In 2010, manufacturing work began on the second X-37B, OTV-2,[21] which conducted its maiden launch in March 2011. Boeing Commercial Satellite Services Major Move for U.S. Return to Human Space Flight CST-100 Starliner Test Article domes mated into full capsule for first time at Kennedy Space Center. The fully assembled Starliner spacecraft being prepared to fly Boeing’s Orbital Flight Test-2 is lifted inside the Starliner production factory at Kennedy Space Center in Florida, on Jan. 13, 2021.