Archivo de la etiqueta: iss

Cygnus Departs Station Ending Cargo Mission

At 11:01 a.m. EST, flight controllers on the ground sent commands to release the Northrop Grumman Cygnus spacecraft from the Canadarm2 robotic arm after earlier detaching Cygnus from the Earth-facing port of the Unity module. At the time of release, the station was flying about 260 miles over the South Pacific Ocean.

The Cygnus spacecraft successfully departed the International Space Station more than three months after arriving at the space station to deliver about 8,000 pounds of  scientific investigations and supplies to the orbiting laboratory.

After departure, the Kentucky Re-Entry Probe Experiment (KREPE) stowed inside Cygnus will take measurements to demonstrate a thermal protection system for spacecraft and their contents during re-entry in Earth’s atmosphere, which can be difficult to replicate in ground simulations.

Cygnus will deorbit on Wednesday, Dec. 15, following a deorbit engine firing to set up a destructive re-entry in which the spacecraft, filled with waste the space station crew packed in the spacecraft, will burn up in Earth’s atmosphere.

Cygnus arrived at the space station Aug. 12, following a launch two days prior on Northrop Grumman’s Antares rocket from NASA’s Wallops Flight Facility on Wallops Island, Virginia. It was the company’s 16th commercial resupply services mission to the space station for NASA. Northrop Grumman named the spacecraft after NASA astronaut Ellison Onizuka, the first Asian American astronaut.

For departure coverage and more information about the mission, visit: https://blogs.nasa.gov/spacestation/. Get space station news, images and features via social media at: @space_station and @ISS_Research on Twitter, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly video highlights at: http://jscfeatures.jsc.nasa.gov/videoupdate/

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Mark Garcia

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Cygnus Ready to be Released Live Now on NASA TV

Live coverage of the departure of Northrop Grumman’s uncrewed Cygnus cargo spacecraft from the International Space Station is underway on NASA Television and the agency’s website, and the NASA app, with its release from the robotic arm scheduled for 11 a.m.

Flight controllers on the ground sent commands earlier this morning for the space station’s Canadarm2 robotic arm to detach Cygnus from the Unity module’s Earth-facing port and maneuver the arm into position in preparation for releasing the spacecraft. Astronaut Matthias Maurer of ESA (European Space Agency) will monitor Cygnus’ systems upon its departure from the space station.

After departure, the Kentucky Re-Entry Probe Experiment (KREPE) stowed inside Cygnus will take measurements to demonstrate a thermal protection system for spacecraft and their contents during re-entry in Earth’s atmosphere, which can be difficult to replicate in ground simulations.

Cygnus will deorbit on Wednesday, Dec. 15, following a deorbit engine firing to set up a destructive re-entry in which the spacecraft, filled with waste the space station crew packed in the spacecraft, will burn up in Earth’s atmosphere.

For departure coverage and more information about the mission, visit: https://blogs.nasa.gov/spacestation/. Get space station news, images and features via social media at: @space_station and @ISS_Research on Twitter, as well as the ISS Facebook and ISS Instagram accounts.

Get weekly video highlights at: http://jscfeatures.jsc.nasa.gov/videoupdate/

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Mark Garcia

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Crew Prioritizes Science, Training, and Exercise Before Cygnus Departure

The Expedition 66 crew focused on science, training, and exercise aboard the International Space Station on Friday and prepared for the Cygnus departure tomorrow.

NASA Flight Engineers Raja Chari and Kayla Barron continued the GRIP experiment that they began earlier this week. The experiment studies how long-duration spaceflight affects crews’ ability to regulate grip force and upper limbs trajectories when manipulating objects during different movements. The pair set up hardware and completed GRIP science tasks in the supine position while donning noise-canceling headphones. Chari performed the GRIP science tasks in the seated position as well.

Additionally, NASA astronauts Thomas Marshburn and Barron completed a robotics research session for the Behavioral Core Measures experiment. The study aims to accurately assess the risk of adverse cognitive or behavioral conditions during extended spaceflight. Marshburn and Barron set up the appropriate robotics hardware and performed the BCM testing. Crews are expected to complete the session at least once per month, starting two weeks after they arrive aboard the space station.

For medical training, NASA astronaut Mark Vande Hei and cosmonauts Anton Shkaplerov and Pyotr Dubrov of Roscosmos reviewed rescuer roles for a situation requiring cardiopulmonary resuscitation (CPR). Emergency medical equipment was deployed during the session. The trio practiced CPR positioning to ensure they could perform the procedure in space if necessary.

Focusing on fitness, crews also squeezed in a workout today. The astronauts completed cardio exercises on a stationary bicycle and treadmill fastened to the space station and resistive exercises using equipment that enables them to lift weights in weightlessness. Crews workout on average two hours per day in space. Routine exercise helps astronauts counter the bone and muscle loss that accompanies living and working in microgravity.

Meanwhile, ESA (European Space Agency) astronaut Matthias Maurer transferred data from a fiber-optic monitor called Lumina. The device tracks radiation levels aboard the space station in real-time. Maurer completed the data transfer with an iPad-based application that gathers medical data from astronauts.

Looking ahead, Barron, Chari, Marshburn, and Vande Hei made final preparations to the Cygnus cargo ship, which is slated to depart from the space station on Saturday at 11 a.m. EST. Cygnus arrived at the space station in August carrying more than  8,200 pounds of cargo. Flight controllers will remotely decouple Cygnus from the space station by forwarding commands to the Canadarm2 robotic arm from Earth. Live coverage of the spacecraft’s departure will begin at 10:45 a.m. on NASA TV.

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Deepthi Cauligi

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Crew Packs Cargo Ship for Departure and Preps for Spacewalk

The Expedition 66 crew is turning its attention to the U.S. Cygnus space freighter as it nears departure this weekend after 100 days berthed to the station’s Unity module. The astronauts are also preparing for a spacewalk to replace a faulty antenna system on the International Space Station.

NASA astronauts Thomas Marshburn, Raja Chari and Mark Vande Hei spent Wednesday afternoon packing Cygnus with trash and obsolete gear. ESA (European Space Agency) astronaut Matthias Maurer continued the cargo loading on Thursday. He will be at the robotics workstation monitoring its departure on Saturday at 11 a.m. EST. Robotics controllers remotely operating the Canadarm2 robotic arm from Earth will command Cygnus’ release live on NASA TV starting at 10:45 a.m.

Cygnus will have one more mission as it re-enters Earth’s atmosphere for a fiery, but safe destruction above the Pacific Ocean. The Kentucky Re-entry Probe Experiment will deploy three capsules from Cygnus to collect and transmit thermal data from sensors embedded in heat shields. The data may help validate thermal protection systems in space and heat shield materials on Earth.

Meanwhile, Marshburn and NASA Flight Engineer Kayla Barron are due to exit the U.S. Quest airlock soon to swap the S-Band Antenna System with a spare already attached outside the station. Maurer will be at the controls of the Canadarm2 assisting the duo during the planned six-and-a-half hour spacewalk.

Marshburn and Barron were joined by NASA Flight Engineers Raja Chari and Mark Vande Hei inside Quest on Thursday as they tried on their U.S. spacesuits for a fit check. Chari and Vande Hei will be on duty monitoring the two astronauts during the spacewalk and helping them in and out of their spacesuits. A news conference to discuss the spacewalk activities has been scheduled for Monday, Nov. 29.

Science was back on track Thursday with the crew exploring human research, botany, and space physics. Chari and Barron tested how astronauts perceive up and down movements and grip and manipulate objects In microgravity. Vande Hei cleaned up debris around chile peppers growing inside the Advanced Plant Habitat. Finally, station Commander Anton Shkaplerov of Roscosmos swapped samples inside the Microgravity Science Glovebox for a physics study seeking to improve the production of higher quality semiconductor crystals.

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Norah Moran

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Crew Operations Aboard Space Station Return to Normal

NASA and U.S. Space Command continue to monitor the debris cloud created by a recent Russian anti-satellite test. The International Space Station and crew members are safe and have resumed normal operations. The largest risk from the debris was in the first 24 hours and telemetry from the space station indicates no issues during that time. About 1:20 a.m. EST today, radial hatches extending from the space station’s center, including Kibo, Columbus, the Permanent Multipurpose Module, Bigelow Expandable Activity Module, and Quest Joint Airlock, were reopened.

Following the incident, crew members were awoken, notified of the debris and asked to close specific hatches based on the space station’s safe haven procedures. Hatches between the U.S. and Russian segments also were closed initially, but were later opened when the higher risk period passed. Crew members’ daily tasks were adjusted during this time to accommodate the hatch closure. After closing the hatches, the crew then entered their Soyuz and Crew Dragon spacecraft for approximately two hours, from 2 a.m. – 4 a.m. EST. No debris avoidance maneuver was performed.

Space debris is tracked by Space Command and conjunction analysis is performed by NASA, with mitigations available for debris clouds and individual conjunction threats (such as debris avoidance maneuvers). If orbital debris were to strike the station and cause an air leak, the crew would close hatches to the affected module. If crew members do not have time to close the affected module, they would enter their respective spacecraft and, if necessary, undock from the space station to return to Earth.

This debris cloud that was just created has increased the risk to the station. The cataloging of the total number of identifiable pieces of debris is ongoing. Once the debris cloud is dispersed and items are tracked and catalogued, NASA will receive notifications of potential conjunction threats to the station and perform maneuvers as necessary. In addition, NASA will continue to perform visual inspections and review telemetry data to ensure vehicle health.

Teams are assessing the risk levels to conduct various mission activities. Any changes to launches, spacewalks, and other events will be updated as needed.

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Mark Garcia

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