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Орбитальные космические станции

Батутовичу -- пламенный привет :)

A SpaceX Falcon 9 Block 5 rocket will launch a Crew Dragon spacecraft on an uncrewed test flight to the International Space Station under NASA’s Commercial Crew Program to finish certification of the Dragon 2 mission architecture for future crewed missions with ISS Expedition crew members. The Dragon 2 spacecraft will test the approach and automated docking procedure with the Space Station, marking a first for SpaceX as the previous generation of Cargo Dragons used a robotic capture and berthing instead of directly coming in for docking. Dragon 2 will remain docked to ISS for a few weeks before demonstrating its end-of-mission ops, specifically an on-target splashdown and recovery. The SpX-DM1 spacecraft will be re-used for the Falcon 9 in-flight abort test.
 
По пилотируемой космонавтике отдельной темы не нашел, поэтому про CST-100 Starliner здесь.

У Боинга пока некоторые задержки. В тестах спасательной системы (от Rocketdyne) обнаружилось, что клапана ненадежны, по команде закрыться отработало лишь 4 из 8. Во время первых (огневых) тестов в 2016 все шло нормально, проблема только сейчас, система в сборе.

В результате первый испытательный полет (беспилотный, на ракете Atlas 5) перенесен на конец 2018 (а может и на начало 2019). Соответственно сдвигается и остальной график - первый пилотируемый на средину 2019, а сертификация для регулярных миссий - до конца 2019. Т.е. отставание от первоначальных планов (сертификация в конце 2017) уже 2 года.
Boeing delays crew capsule test flights after abort engine problem

August 1, 2018 Stephen Clark

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The upper and lower domes of the CST-100 Starliner which will carry the vehicle’s first crew into orbit were mated June 19 inside Boeing’s Commercial Crew and Cargo Processing Facility at NASA’s Kennedy Space Center in Florida. This vehicle is known as Spacecraft 2 in Boeing’s fleet. Credit: Boeing

Boeing has reshuffled a sequence of test flights planned for the company’s CST-100 Starliner capsule after stuck valves inside a test version of the ship’s service module caused a fuel spill in June, delaying the commercial spacecraft’s first unpiloted orbital demo mission until late this year or early 2019, and moving back the first crew launch to mid-2019, a company official said Wednesday.

The updated schedule announced Wednesday also calls for a pad abort test next spring in New Mexico to test the spaceship’s ability to escape a catastrophic launch vehicle failure and save its crew.

Boeing has a $4.2 billion contract with NASA to develop the reusable crew capsule, which will launch aboard United Launch Alliance Atlas 5 rockets from Cape Canaveral, dock with the International Space Station for stays of up seven months, and return to Earth for landings in the Western United States with the aid of parachutes and airbags.

NASA has also partnered with SpaceX, which is developing the Crew Dragon spacecraft for launch on the company’s own Falcon 9 rockets.
The two commercial crew contractors will end NASA’s sole reliance on Russian Soyuz vehicles to ferry astronauts to and from the space station.
John Mulholland, Boeing’s vice president and program manager for the CST-100 Starliner program, told reporters Monday that the propellant leak on a test stand at NASA’s White Sands Test Facility in New Mexico was caused by several faulty valves inside the abort propulsion system on a service module testbed.

“That test was designed to verify all of the service module propulsion capabilities, and those include the abort, the on-orbit and the de-orbit propulsion events,” Mulholland said in a media roundtable. “It was a robust test program designed to screen out any potential design weaknesses.”
The test anomaly, first reported last week by Ars Technica, occurred as engineers test-fired four abort engines at the base of the service module. The CST-100 Starliner spacecraft will fly with a reusable crew module, which comes back to Earth with passengers on-board, and a disposable service module housing the ship’s primary propulsion system, solar panels and radiators.

Boeing built a flight-like service module for hotfire testing at White Sands, before managers planned the CST-100 Starliner’s pad abort test this summer.

“The initial test that we were performing on that (service module) test article was a low-altitude abort burn,” Mulholland said. “That test is designed to simulate a pad abort or a low-altitude abort. In that, we fire the four launch abort engines on the bottom of the spacecraft that will provide the propulsion capability that we need to get away from an impending launch vehicle failure.”

Each CST-100 service module carries four launch abort engines, built by Aerojet Rocketdyne. The engines would only fire in flight in the event of a launch emergency, igniting with 40,000 pounds of thrust each for a few seconds to propel the capsule away from its rocket.

The four launch abort engines are joined by 48 smaller thrusters on the CST-100 service module, including a set of 1,500-pound-thrust orbital maneuvering and attitude control engines used for pointing during a launch abort and for large orbital maneuvers, and pods of 100-pound reaction control thrusters, all manufactured by Aerojet Rocketdyne.

“During the start-up of that test, all engines responded nominally,” Mulholland said. “At approximately one-and-a-half seconds, we issued shutdown commands to the engines, and several of the abort engine valves failed to fully close.”

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A launch abort engine for the CST-100 Starliner spacecraft during a test-firing in 2016. Credit: NASA

According to a report published by Aviation Week and Space Technology, four of eight valves regulating the flow of propellants into the launch abort engines were stuck open after the shutdown command.

“The result of that was leakage of hypergolic propellant, which was contained at the test site, and there was no damage to the test article, and no personnel injuries,” Mulholland said.

The service module’s rocket engines consume a hypergolic mixture of hydrazine and nitrogen tetroxide propellants, which combust upon contact with one another. During a real launch escape, the CST-100’s launch abort engines would fire for around 4.5 seconds, guzzling huge quantities of propellant to push the capsule away from a failing booster.

The high-pressure flow of propellant into the abort engines requires the use of dedicated valves, Mulholland told Spaceflight Now in an interview last year. Each engine includes a fuel and oxidizer valve.

Boeing and Aerojet Rocketdyne previously completed a series of hotfire tests of individual CST-100 abort engines. In a 2016 press release, Aerojet Rocketdyne said the testing “confirmed the ability for the new valves to modulate propellant flow and control peak LAE (launch abort engine) thrust in the event of a launch abort.”

Eileen Drake, Aerojet Rocketdyne’s president and CEO, said the 2016 statement that the valves “enabled the engine to demonstrate precise timing, peak thrust control and steady-state thrust necessary during a mission abort.”

Mulholland said Wednesday that managers launched a joint investigation involving NASA and industry engineers to probe the June 2 test anomaly.
“We are confident that we identified the root cause and are implementing correcting actions now,” he said, without elaborating on the investigation’s findings.

“Our team is off fixing those problems, and the result of that test series is that we will have a better and safer spacecraft,” Mulholland said.

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The dual-engine Centaur upper stages for the CST-100 Starliner’s crew flight test (left) and uncrewed orbital flight test (right) inside United Launch Alliance’s Atlas 5 factory in Decatur, Alabama. Credit: United Launch Alliance

Mulholland said the investigators identified several corrective actions, such as “a potential combination of operational changes and minor design changes that we believe will allow those valves to fully close with significant margin in all potential operational scenarios.”

The propulsion problem caused Boeing to reschedule the pad abort test, during which a CST-100 spacecraft will fire off a launch mount at White Sands to simulate an escape from a launch pad emergency, from this summer to next spring, Mulholland said.

“If you looked at our original sequence prior to the service module hotfire test anomaly, we were going to perform a pad abort test first, followed by an uncrewed flight test and then the crew flight test,” Mulholland said. “One of the things that is not required for the uncrewed flight test is the abort capability. The abort capability will not be enabled on the uncrewed flight test, so the optimal sequence then changed to performing the uncrewed flight test first, and then the pad abort test, which we will need to perform before the crew flight test.”

The updated schedule outlined by Mulholland on Wednesday calls for the uncrewed test flight to launch on an Atlas 5 rocket at the end of this year or in early 2019 from Cape Canaveral. The CST-100 capsule will make an automated docking to the space station for a short stay, then return to Earth.

After the pad abort test in New Mexico, the crew flight test will be readied for takeoff in mid-2019 on another Atlas 5 flight from Florida’s Space Coast, likely with two or three crew members on-board.

Boeing test pilot Chris Ferguson, who commanded the last space shuttle mission in 2011 before retiring from NASA, will helm the crew test flight. One or two NASA astronauts will accompany Ferguson, and their identities will be revealed in a ceremony Friday at the Johnson Space Center in Houston.

The space agency plans to announce Friday which astronauts will ride on the initial Boeing and SpaceX crew missions.

NASA and Boeing have agreed to potentially use the CST-100 Starliner’s crewed test flight, which originally was supposed to launch with a Boeing test pilot and a NASA astronaut, to carry a passenger who would stay aboard the space station for a long-duration months-long stay. If NASA chooses to exercise that option, the extra crew member could help ensure the station has a U.S. astronaut on-board after the space agency’s agreement with the Russian government for Soyuz crew seats expires.

The Russian space agency — Roscosmos — and NASA have agreed to extend the length of upcoming space station expeditions to more than six months. That will allow NASA’s contract for astronauts seats on Russian Soyuz spacecraft to cover crew returns through at least January 2020, several months later than originally planned.

These measures are aimed at reducing the risk of a gap in U.S. crew access to the space station, a focus of a Government Accountability Office report released last month.

The GAO said a NASA schedule analysis suggested Boeing and SpaceX may not be certified for regular crew rotation missions to the station — a milestone achieved after CST-100 and Crew Dragon crew flight tests — until late 2019 or early 2020, and perhaps months later in a worst-case scenario.

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The base heat shield for Spacecraft 1, the CST-100 capsule which will fly on the pad abort test, was installed on the spacecraft earlier this year at NASA’s Kennedy Space Center in Florida. Credit: Boeing

Boeing is building three flight-worthy CST-100 crew modules at its manufacturing site at the Kennedy Space Center in Florida, housed in a former space shuttle processing hangar.

Spacecraft 1, the first of the line, will be used on the pad abort test in New Mexico. Spacecraft 2, which is nearing completion, will soon be shipped cross-country to Boeing’s test site in El Segundo, California, for a battery of tests to subject it to the extreme temperatures, vacuum conditions and acoustic environment it will encounter in flight.

Spacecraft 2 will return to Florida for the crew flight test, while Spacecraft 3 is scheduled to be completed at KSC later this year, when it will immediately proceed into launch preparations for the uncrewed orbital test flight.

According to Mulholland, the Atlas 5 rocket assigned to the CST-100’s uncrewed test flight — known by the tail number AV-080 — is complete and ready for transport from ULA’s factory in Decatur, Alabama, to Cape Canaveral. The launcher for the crew flight test is “very close to completing also,” he said.

The Atlas 5 rocket configuration which will launch CST-100 crews will fly with two strap-on solid rocket boosters and a Centaur upper stage powered by two RL10 engines, not the single-engine Centaur stages flown on all Atlas 5 missions to date. ULA has finished around 90 percent of the qualification required to human-rate the Atlas 5, Mulholland said.

Boeing’s previous target dates for the uncrewed and crew flight tests called for launches in August and November, respectively. Any realistic expectation to achieve that schedule had eroded months ago.

The schedule for SpaceX’s Crew Dragon test flights is also expected to be delayed, but the company has not announced a new timeframe for the demo missions.

In a July 26 meeting, members of NASA’s Aerospace Safety Advisory Panel said technical concerns with both Boeing and SpaceX, and a series of certification reviews required by NASA, continue to create uncertainty in the commercial crew program’s schedule.

“The providers have made sufficient headway that there is light at the end of the tunnel,” said Patricia Sanders, chair of the safety advisory panel. “It should be possible to project a realistic timeframe for at least the uncrewed test flights.”

“We’re reaching the point where the program is rapidly approaching the launch of those demos,” said Sandy Magnus, an ASAP member and former astronaut. “The momentum of activities is going to continue to build, but there’s a lot left to accomplish.

“Having the hardware ready to go is, of course, an important piece, but we still have to get through the certification, understand the risk posture … The uncrewed demos are an important milestone, and it will be great, I think, for the community to see that, and a very good morale boost.”

George Nield, a veteran aerospace engineer and former head of the Federal Aviation Administration’s commercial space office, said NASA and contractor officials are on the lookout for the burdens of schedule pressure.

“It’s important to point out that the ASAP has not seen any evidence of negative safety impacts based on schedule pressure,” Nield said during the July 26 meeting. “I think people are looking for that. They’re aware of the danger there.”

Nield said the safety panel should “expect some uncertainty in the near-term schedule, particularly for the Boeing provider,” as the company works through the launch abort engine anomaly.

When NASA awarded Boeing and SpaceX their commercial crew contracts in late 2016, agency and contractor officials expected to have the new vehicles certified for regular crew rotation missions to and from the International Space Station by the end of 2017.
But technical hurdles and several redesigns of the spacecraft have delayed Boeing and SpaceX’s first unscrewed orbital test flights until later this year, at the earliest.

“These development programs are hard, especially for human spaceflight vehicles, where you really work to drive in robustness, redundancy, and optimize mass and volume,” Mulholland said Wednesday. “We laid out a very challenging and aggressive schedule, and we have had several slips in that plan based on the challenges that hit us in a number of these integrated tests, and through the design and development process.

“That said, our commitment hasn’t wavered to make sure that we do everything that we laid out to do in our plan, which will ensure that when we fly we’re going fly with the utmost safety and mission success,” he said.

“Every time we lay out a schedule, we believe it’s realistic,” he said. “There certainly are potential risks in front of us. As we move through the remaining test program, there is always, by its nature, the risk of discovery.”
 
Выбран подрядчик для строительства двух модулей первой частной орбитальной станции

 
бигелоу рыдает. наняли прослойку которая раздает контракты итальянцам
 
По логике схлопнется быстро авантюра. Но с нескольких космотуристов деньги содрут, а там десятки миллионов.
Хватит для безбедной старости десятка прощелыг.
 
По логике схлопнется быстро авантюра. Но с нескольких космотуристов деньги содрут, а там десятки миллионов.
Хватит для безбедной старости десятка прощелыг.
"Десятки миллионов" в этом бизнесе всё равно что "ноль без палочки" - потому что затраты там многомиллиардные и не из бюджета, раз речь о частной станции...
 
Приключения засронавтов на МКС
 
Интересный пост про МКС

 
 
 
Запуск корабля CST-100 Starliner, Orbital Flight Test-2 в беспилотном варианте к МКС запланирован на 25 марта 2021 года.
 
Да будет она, только без приспешники рогозку ...
Не будет никакой МКС, silentpom прав. То с каким "энтузиазмом" и Маск и Боинг работают по программе крю корабли, говорит об одном - у них не то что бы не получается, просто компании вообще не желают тратить на эту программу ресурсы (инженерные и производственные конечно). И программа нужна только NASA.
В конце 2019 года Маск вообще готов был бросить в дальний ящик Дракон 2. Брайденстайн лично приезжал к нему - уговаривал.
Так что я уверен - 5 лет и проект прикроют, переключившись на Луну. А раз всего 5 лет то и денег особо на трансфере не заработаешь - потому и нет интереса у разработчиков.
 
Не будет никакой МКС, silentpom прав. То с каким "энтузиазмом" и Маск и Боинг работают по программе крю корабли, говорит об одном - у них не то что бы не получается, просто компании вообще не желают тратить на эту программу ресурсы (инженерные и производственные конечно). И программа нужна только NASA.
В конце 2019 года Маск вообще готов был бросить в дальний ящик Дракон 2. Брайденстайн лично приезжал к нему - уговаривал.
Так что я уверен - 5 лет и проект прикроют, переключившись на Луну. А раз всего 5 лет то и денег особо на трансфере не заработаешь - потому и нет интереса у разработчиков.
Скорее наоборот - Маск хотел бросить это гнилое дело из-за бесконечных придирок НАСА, которое куда больше благоволило к обосравшемуся со Старлайнером Боингу...
 
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