{"id":15593,"date":"2016-04-11T01:00:52","date_gmt":"2016-04-10T17:00:52","guid":{"rendered":"https:\/\/wp-productionenv-bjg9h2g2bgg5b8aa.southeastasia-01.azurewebsites.net\/news\/dragon-arrives-at-space-station-with-inflatable-habitat-in-tow\/"},"modified":"2016-04-11T01:00:52","modified_gmt":"2016-04-10T17:00:52","slug":"dragon-arrives-at-space-station-with-inflatable-habitat-in-tow","status":"publish","type":"post","link":"https:\/\/starpath.global\/news\/dragon-arrives-at-space-station-with-inflatable-habitat-in-tow\/","title":{"rendered":"Dragon arrives at space station with inflatable habitat in tow"},"content":{"rendered":"
\"Astronaut
The Dragon spaceship flies over the Palm Islands of Dubai on final approach to the International Space Station on Sunday. Credit: Tim Peake<\/figcaption><\/figure>\n

SpaceX\u2019s Dragon supply ship executed a laser-guided rendezvous with the International Space Station early Sunday, delivering an experimental expandable enclosure for attachment to the complex later this month for tests to verify the inflatable design\u2019s suitability for future space habitats.<\/p>\n

The module will expand to about four times its launch volume next month, beginning a two-year demonstration campaign to check the lightweight habitat\u2019s resiliency to the harsh conditions of space.<\/p>\n

The automated Dragon cargo capsule approached the space station from below Sunday, pulsing its rocket jets to guide the spacecraft to a point about 30 feet (10 meters) from the complex, close enough for the robotic arm to reach out and grapple the SpaceX supply freighter.<\/p>\n

European Space Agency flight engineer Tim Peake took control of the Canadian-built robotic arm to snare the free-flying Dragon spaceship at 7:23 a.m. EDT (1123 GMT) Sunday.<\/p>\n

\u201cLooks like we\u2019ve caught a Dragon,\u201d Peake radioed ground controllers.<\/p>\n

\u201cCopy, station,\u201d replied astronaut Serena Aunon from mission control in Houston. \u201cThere are smiles all around here. Nice job capturing that Dragon.\u201d<\/p>\n

Dragon\u2019s rendezvous with the space station came a day-and-a-half after its blastoff from Cape Canaveral aboard a Falcon 9 rocket.<\/p>\n

Engineers on the ground guided the robot arm to attach the Dragon spacecraft to the Earth-facing port on the space station\u2019s Harmony module a few hours later.<\/p>\n

The Dragon cargo craft is now parked alongside Orbital ATK\u2019s Cygnus supply ship, which arrived at the complex March 26. It is the first time two U.S. commercial cargo carriers have been at the space station at the same time.<\/p>\n

In total, six spacecraft are in port at the space station, including the two U.S. commercial supply ships, two Soyuz crew transport craft, and two Russian Progress freighters.<\/p>\n

That ties a record for the most number of visiting vehicles at the space station at one time, a mark first set in 2011 when the space shuttle Discovery, Europe\u2019s Automated Transfer Vehicle, Japan\u2019s H-2 Transfer Vehicle and three Russian spacecraft were docked at the outpost.<\/p>\n

Dragon\u2019s visit to the space station is also the first time a SpaceX resupply vessel, developed and operated under a multibillion-dollar contract to NASA, has flown to the outpost in nearly a year.<\/p>\n

Astronauts will enter the Dragon spacecraft Monday to begin unpacking nearly 3,800 pounds (1,723 kilograms) of supplies, provisions and experiments inside the capsule\u2019s pressurized compartment.<\/p>\n

The experiments aboard Dragon include 20 female mice for an experiment developed by Eli Lilly, the Indiana-based pharmaceutical firm, to investigate how an antibody made in the company\u2019s laboratories might inhibit muscle loss.<\/p>\n

Research investigations developed by secondary school students also arrived at the space station aboard Dragon, including a re-flight 25 experiments lost aboard a SpaceX rocket failure last year on the way to orbit.<\/p>\n

Two of the experiments from schools in South Carolina and Maryland finally reached the space station after falling victim to two launch failures \u2014 last year\u2019s SpaceX mishap and an Antares cargo rocket exploration in 2014, according to the National Center for Earth and Space Science Education, the sponsor of the student payloads in partnership with NanoRacks.<\/p>\n

Research hardware delivered to the space station Sunday will help scientists keep track of microbes inside the outpost. A batch of Chinese cabbage and red romaine lettuce seeds also arrived inside Dragon to give the station astronauts fresh vegetables to go with their pre-packaged diet.<\/p>\n

Food reserves, clothing and computer equipment were also inside the Dragon capsule.<\/p>\n

The centerpiece of Dragon\u2019s 3.5-ton cargo load is the Bigelow Expandable Activity Module, or BEAM, a pathfinder for future inflatable habitats that could form commercial space stations, ferry astronauts to deep space destinations, and even protect explorers on the surface of Mars.<\/p>\n

The 3,115-pound (1,413-kilogram) BEAM structure rode to the space station inside the Dragon spacecraft\u2019s unpressurized trunk section.<\/p>\n

Robert Bigelow, founder of Bigelow Aerospace based in North Las Vegas, Nevada, is an evangelist for expandable space habitats. The real estate investor turned space entrepreneur plans to construct a huge commercial complex in orbit using the technologies to be tested by BEAM.<\/p>\n

Building on inflatable habitat work done by NASA in the 1990s, Bigelow is developing expandable modules 20 times bigger than BEAM that could launch as soon as 2020 to construct a standalone human-tended platform for rent by researchers, foreign governments, and even NASA.<\/p>\n

Inflatable modules have benefits in mass and volume, allowing designers of future crewed habitats to build larger structures that can launch within the envelope of existing rockets.<\/p>\n

\u201cThere are limitations to metallic structures in that the largest thing you could ever fly is what fits in the rocket\u2019s fairing,\u201d said Jason Crusan, director of NASA\u2019s advanced exploration systems division.<\/p>\n

Operating the station\u2019s robotic arm via remote control, ground-based engineers plan to pluck the module from the Dragon capsule\u2019s trunk April 16 and mate it to the aft attach point of the Tranquility node.<\/p>\n