Dragon Docks to International Space Station

SpaceX Dragon capsule atop the company's Falcon 9 rocket at Kennedy Space Center
SpaceX’s Dragon spacecraft, atop the company’s Falcon 9 rocket, is seen inside the company’s hangar at NASA’s Kennedy Space Center in Florida on Aug. 24, prior to being rolled out to the launch pad in preparation for the 23rd commercial resupply services launch. Following an Aug. 29 launch from Kennedy, Dragon docked to the International Space Station’s Harmony module this morning, Aug. 30. Credit: SpaceX

While the International Space Station was traveling about 260 miles over Western Australia, a SpaceX Dragon cargo spacecraft autonomously docked to the forward-facing port of the orbiting laboratory’s Harmony module at 10:30 a.m. EDT, Monday, Aug. 30. Flight Engineers Shane Kimbrough and Megan McArthur of NASA monitored operations.

Among the science experiments Dragon is delivering to the space station are:

Building bone with byproducts
REducing Arthritis Dependent Inflammation First Phase (READI FP) evaluates the effects of microgravity and space radiation on the growth of bone tissue and tests whether bioactive metabolites, which include substances such as antioxidants formed when food is broken down, might protect bones during spaceflight. The metabolites that will be tested come from plant extracts generated as waste products in wine production. Protecting the health of crew members from the effects of microgravity is crucial for the success of future long-duration space missions. This study could improve scientists’ understanding of the physical changes that cause bone loss and identify potential countermeasures. This insight also could contribute to prevention and treatment of bone loss on Earth, particularly in post-menopausal women.

Keeping an eye on eyes
Retinal Diagnostics tests whether a small, light-based device can capture images of the retinas of astronauts to document progression of vision problems known as Space-Associated Neuro-Ocular Syndrome (SANS). The device uses a commercially available lens approved for routine clinical use and is lightweight, mobile, and noninvasive. The videos and images will be downlinked to test and train models for detecting common signs of SANS in astronauts. The investigation is sponsored by ESA (European Space Agency) with the German Aerospace Center Institute of Space Medicine and European Astronaut Centre.

Robotic helpers
The Nanoracks-GITAI Robotic Arm will demonstrate the microgravity versatility and dexterity of a robot designed by GITAI Japan Inc. Results could support development of robotic labor to support crew activities and tasks, as well as inform servicing, assembly, and manufacturing tasks while in orbit. Robotic support could lower costs and improve crew safety by having robots take on tasks that could expose crew members to hazards. The technology also has applications in extreme and potentially dangerous environments on Earth, including disaster relief, deep-sea excavation, and servicing nuclear power plants. The experiment will be conducted inside the Nanoracks Bishop Airlockthe space station’s first commercial airlock.

Putting materials to the test
MISSE-15 NASA is one of a series of investigations on Alpha Space’s Materials ISS Experiment Flight Facility, which is testing how the space environment affects the performance and durability of specific materials and components. These tests provide insights that support development of better materials needed for space exploration. Testing materials in space has the potential to significantly speed up their development. Materials capable of standing up to space also have potential applications in harsh environments on Earth and for improved radiation protection, better solar cells, and more durable concrete.

Helping plants deal with stress
Plants grown under microgravity conditions typically display evidence of stress.  Advanced Plant EXperiment-08 (APEX-08) examines the role of compounds known as polyamines in the response of the small, flowering plant thale cress to microgravity stress. Because expression of the genes involved in polyamine metabolism remain the same in space as on the ground, plants do not appear to use polyamines to respond to stress in microgravity. APEX-08 attempts to engineer a way for them to do so. Results could help identify key targets for genetic engineering of plants more suited to microgravity.

Easier drug delivery
The Faraday Research Facility is a multipurpose unit that uses the space station’s EXPRESS payload rack systems, which enable quick, simple integration of multiple payloads . On this first flight, the facility hosts a Houston Methodist Research Institute experiment and two STEM collaborations, including “Making Space for Girls” with the Girl Scouts of Citrus Council in Orlando, Florida.

The Faraday Nanofluidic Implant Communication Experiment  (Faraday-NICE) tests an implantable, remote-controlled drug delivery system using sealed containers of saline solution as surrogate test subjects. The device could provide an alternative to bulky, cumbersome infusion pumps, a possible game changer for long-term management of chronic conditions on Earth. Remote-controlled drug delivery could simplify administration for people with limitations.

partnership between Faraday and Girls Scouts allows troops to play a role in conducting the control experiments, including providing them with images of the same experiments that are happening in space. The studies involve plant growth, ant colonization, and the brine shrimp lifecycle.

These are just a few of the hundreds of investigations currently being conducted aboard the orbiting laboratory in the areas of biology and biotechnology, physical sciences, and Earth and space science. Advances in these areas will help keep astronauts healthy during long-duration space travel and demonstrate technologies for future human and robotic exploration beyond low-Earth orbit to the Moon and Mars through Artemis.

Keep up to date with the latest news from the crew living in space by following, @space_station and @ISS_Research on Twitter, and the ISS Facebook and ISS Instagram accounts.

Spacecraft Ahead of Schedule, Coverage Begins at 9 a.m. EDT

SpaceX Dragon is approximately 30 minutes ahead of its targeted time to reach the International Space Station, with an expected docking of the cargo spacecraft around 10:30 a.m. EDT. Live coverage will now begin at 9 a.m. on NASA TV, the agency’s website, and the NASA app.

CRS-23 mission patchThe spacecraft lifted off Sunday, Aug. 29, atop a SpaceX Falcon 9 rocket for the company’s 23rd Cargo Resupply Services mission at NASA’s Kennedy Space Center. When it arrives to the space station, Dragon will dock autonomously to the forward-facing port of the station’s Harmony module, with Expedition 65 Flight Engineers Shane Kimbrough and Megan McArthur of NASA monitoring operations.

Keep up to date with the latest news from the crew living in space by following @space_station and @ISS_Research on Twitter, and the ISS Facebook and ISS Instagram accounts.

NASA and United Launch Alliance Review Landsat 9 Launch Date

The Landsat 9 spacecraft inside the Integrated Processing Facility at Vandenberg Space Force Base in California
Inside the Integrated Processing Facility at Vandenberg Space Force Base in California, both United Launch Alliance (ULA) payload fairings are secured around the Landsat 9 spacecraft on Aug. 16, 2021. Photo credit: USSF 30th Space Wing/Chris Okula

NASA and United Launch Alliance currently are reviewing the launch date for the Landsat 9 spacecraft scheduled to launch from Vandenberg Space Force Base in California. Current pandemic demands for medical liquid oxygen have impacted the delivery of the needed liquid nitrogen supply to Vandenberg by the Defense Logistics Agency (DLA) and its supplier Airgas. Airgas converts the liquid nitrogen to gaseous nitrogen needed for launch vehicle testing and countdown sequences. DLA and Airgas now have implemented efforts to increase the supply of liquid nitrogen to Vandenberg. The Landsat 9 launch now is expected no earlier than Thursday, Sept. 23, 2021.

Landsat 9 is a joint NASA and U.S. Geological Survey (USGS) mission that continues the legacy of monitoring Earth’s land and coastal regions, which began with the first Landsat in 1972. The mission will launch on a United Launch Alliance Atlas V rocket from Space Launch Complex 3 at Vandenberg.

Prelaunch News Conference Set for Noon Today

SpaceX Falcon 9 rocket and Dragon spacecraft for 23rd commercial resupply services mission
NASA commercial cargo provider SpaceX is targeting Saturday, Aug. 28, to launch its 23rd commercial resupply services mission to the International Space Station. Credit: SpaceX

At noon today, NASA TV will broadcast a prelaunch news conference from the agency’s Kennedy Space Center in Florida for SpaceX’s 23rd commercial resupply services mission. The event will feature representatives from NASA’s International Space Station Program, SpaceX, and the U.S. Space Force Space Launch Delta 45.

Participants include: Joel Montalbano, manager for the International Space Station Program (remotely from Johnson Space Center in Houston); Jennifer Scott Williams, manager, Applications Client Support Office for the International Space Station Program; Sarah Walker, director, Dragon mission management at SpaceX; and Brian Cizek, launch weather officer, 45th Weather Squadron, Cape Canaveral Space Force Station.

The public can ask questions by using #AskNASA on Twitter. Submitted questions may be answered in real-time during the segment. Immediately following the news conference, NASA TV will air a “What’s on Board” video that will introduce the public to some of the investigators flying science on this mission.

NASA and SpaceX are targeting tomorrow, Aug. 28, at 3:37 a.m. EDT, to launch SpaceX’s Dragon spacecraft to the space station. Liftoff, aboard a SpaceX Falcon 9 rocket, will be from Launch Complex 39A at Kennedy.

Dragon will deliver new science investigations, supplies, and equipment for the international crew. Live coverage, starting Saturday at 3:15 a.m. EDT, will air on NASA TV, the NASA app and the agency’s website.

Weather Slips to 40% Favorable for Tomorrow’s Launch

Weather officials with Cape Canaveral Space Force Station’s 45th Weather Squadron predict a 40% chance of favorable weather conditions for launch tomorrow, Aug. 28, with the cumulus cloud rule, flight through precipitation, and the thick cloud layers rule serving as the primary weather concerns. The forecast is down 10% from Thursday’s favorable weather prediction.

CRS-23 mission patchSpaceX’s 23rd contract resupply mission under the second Commercial Resupply Services contract with NASA is scheduled to deliver more than 4,800 pounds of cargo to the International Space Station. Launch is targeted for Saturday, with an instantaneous launch window opening at approximately 3:37 a.m. EDT.

About 12 minutes after liftoff, SpaceX’s Dragon spacecraft will separate from the company’s Falcon 9 rocket’s second stage and begin a carefully choreographed series of thruster firings to reach the space station. Arrival to the station is planned for Sunday, Aug. 29. The spacecraft is expected to spend about a month attached to the orbiting outpost before it returns to Earth with research and cargo, splashing down off the coast of Florida.

Live coverage will air on NASA Television, the NASA app and the agency’s website, with prelaunch events starting today, Aug. 27, at noon. That will be immediately followed by a “What’s on Board” show, which will address some of the important science investigations that will be carried to the space station aboard Dragon.

Beginning Saturday, Aug. 28, at 3:15 a.m., join us here on the blog, or follow along on NASA TV or the agency’s website for the live launch broadcast.

From the Classroom to the Launchpad – University Satellites Prepare for Launch

Puerto Rico CubeSat NanoRocks-2
Professor Amilcar Rincón Charris talks to students, from right to left, Jesús Marrero Colón, Wilhem Sánchez Rodríguez, and Carlos Vergara during the process in which the satellite created by them and other students from the Bayamón campus of the Inter-American University of Puerto Rico was inspected. Credit: Inter-American University of Puerto Rico

Leerlo en español aquí

NASA is preparing to launch three small, university-built research satellites aboard SpaceX’s 23rd Commercial Resupply Services mission to the International Space Station. This mission, carrying more than 4,800 pounds of cargo, will lift off from NASA’s Kennedy Space Center in Florida Saturday Aug. 28 at 3:37 a.m. EDT.

The small satellites, or CubeSats – built by the Inter-American University of Puerto Rico, University of Illinois Urbana-Champaign, and the University of Massachusetts Lowell –  comprise NASA’s 37th Educational Launch of Nanosatellites (ELaNa) mission. Each CubeSat measures approximately four inches by four inches by 12 inches and will carry out unique tasks once deployed into low-Earth orbit.

Puerto Rico CubeSat NanoRocks-2 (PR-CuNaR2) is making history as the first CubeSat from Puerto Rico selected for launch by NASA. The small satellite contains millimeter-sized particles that will be mechanically shaken to induce collisions among the particles. The team hopes that results of the collisions might answer questions about how mass, density, composition of particles, and collision velocities contribute to the formation of protoplanetary disks – disks of gas and dust swirling around stars – and planetary ring systems, such as Saturn’s.

The CubeSat was designed and developed by about 25 students from the School of Engineering at the Bayamón campus of the Inter-American University of Puerto Rico, along with their professor, and principal investigator, Dr. Amilcar Rincón Charris.

Attitude Control Test of SPACE HAUC
Shanice Kelly participates in the Attitude Control Test of SPACE HAUC. Credit: Edwin Aguirre, University of Massachusetts Lowell

Science Program Around Communication Engineering with High Achieving Undergraduate Cadres (SPACE HAUC) is an undergraduate student mission from the University of Massachusetts in Lowell, Massachusetts. SPACE HAUC will demonstrate a student-developed communication system that can quickly transfer large amounts of data. Many CubeSats transfer large data files to ground controllers at 2 to 5 megabits per second. SPACE HAUC aims to increase that speed to about 50 megabits per second using an x-band phased array antenna.

This CubeSat was designed and built over five years and by more than 100 students from the Kennedy College of Sciences and the Francis College of Engineering. Dr. Supriya Chakrabarti, physics professor and director of the Lowell Center for Space Science and Technology, is the principal investigator for this CubeSat mission.

Cool Annealing Payload Satellite (CAPSat)
The Cool Annealing Payload Satellite (CAPSat) will demonstrate enabling technology for space-based quantum communications. Credit: Michael Lembeck, University of Illinois Urbana-Champaign

Cool Annealing Payload Satellite (CAPSat) was developed across several departments at the University of Illinois Urbana-Champaign in cooperation with the University of Waterloo in Ontario, Canada. CAPSat will test technology that could enable quantum links in space, which are important for global quantum networks, sensors, and quantum-enhanced telescopes. The demonstration will use a laser to repair single-photon detectors that sense quantum signals.

Over time, photon detectors can become noisy in space due to radiation-induced defects. The laser onboard CAPSat will heat the detector, exciting the atoms in its structure. Once the laser is turned off, the atoms anneal, or settle back into an ordered state, repairing the damage and restoring the detector. The principal investigator, Paul Kwiat, is a professor in the University of Illinois Physics Department.

NASA’s CubeSat Launch Initiative (CSLI) selected the CubeSats, which were assigned to the ELaNa 37 mission by NASA’s Launch Services Program (LSP) based at the  Kennedy Space Center in Florida. LSP manages the ELaNa manifest. CSLI provides launch opportunities for small satellite payloads built by universities, high schools, NASA Centers, and non-profit organizations.

To date, NASA has selected 202 CubeSat missions, 119 of which have been launched into space, with 59 more missions scheduled for launch within the next 12 months. The selected CubeSats represent participants from 42 states, the District of Columbia, Puerto Rico, and 102 unique organizations. CSLI recently released its Announcement of Partnership Opportunity for 2021. Applicants can submit CubeSat proposals until Nov. 19, 2021.

Stay connected with these CubeSat missions on social media by following NASA’s Launch Services Program on Facebook and Twitter.

Weather Now 50% Favorable for 23rd Commercial Resupply Services Mission

CRS-23: SpaceX Dragon spacecraft atop the company’s Falcon 9 rocket
Shown here is an up-close view of the SpaceX Dragon spacecraft atop the company’s Falcon 9 rocket after being raised to a vertical position at NASA’s Kennedy Space Center in Florida on Aug. 25, 2021, in preparation for the 23rd commercial resupply services launch to the International Space Station. Photo credit: SpaceX

The weather forecast has dipped slightly for the planned Saturday, Aug. 28, launch of SpaceX’s 23rd commercial resupply services mission to the International Space Station.

Weather officials with Cape Canaveral Space Force Station’s 45th Weather Squadron predict a 50% chance of favorable weather conditions for Saturday’s targeted liftoff of a SpaceX Falcon 9 rocket and the company’s Dragon spacecraft from Launch Complex 39A at NASA’s Kennedy Space Center in Florida. An instantaneous window opens at 3:37 a.m. EDT.

The primary weather concerns are cumulus cloud rule and flight through precipitation. The most recent forecast represents a 10% drop in favorable conditions from Wednesday’s predicted launch weather.

Dragon will be filled with supplies and payloads, including critical materials to directly support dozens of the more than 250 science and research investigations that will occur during Expeditions 65 and 66. Upon Dragon’s arrival – slated for Sunday, Aug. 29 – NASA astronauts Shane Kimbrough and Megan McArthur will monitor operations while the spacecraft autonomously docks to the orbiting laboratory’s Harmony module.

Beginning Saturday at 3:15 a.m. EDT, join us here on the blog for live coverage, and follow along on NASA TV or the agency’s website for the live launch broadcast.

Dragon Mated to Falcon, Rolled out to Launch Pad for Saturday’s Mission

SpaceX’s Falcon 9 rocket, with the company’s Dragon spacecraft atop, stands vertical on the launch pad at Kennedy Space Center’s Launch Complex 39A on Aug. 25. Photo credit: SpaceX

The Dragon spacecraft for SpaceX’s 23rd commercial resupply services mission is now ready for its flight to the International Space Station.

On Friday, Aug. 20, teams transported the spacecraft from SpaceX’s processing facility at Cape Canaveral Space Force Station into the hangar at nearby Kennedy Space Center’s Launch Complex 39A, where it was attached to the Falcon 9 rocket two days later.

SpaceX Falcon 9 rocket and Cargo spacecraft rolling out to the launch pad
The SpaceX Dragon spacecraft and Falcon 9 rocket are rolled out to Kennedy’s Launch Complex 39A. Photo credit: SpaceX

The rocket – with Dragon atop – was then rolled out to the launch pad Tuesday, Aug. 24, and raised to a vertical position this morning, Aug. 25, in preparation for Saturday’s launch. Liftoff of the Falcon 9 is scheduled for 3:37 a.m. EDT. Dragon will deliver a variety of NASA investigations, including one that will determine if metabolites from grape skins and seeds used in wine-making could help prevent and treat osteoporosis.

About 12 minutes after launch, Dragon will separate from the Falcon 9 rocket’s second stage and begin a carefully choreographed series of thruster firings to reach the space station. Arrival to the orbiting laboratory is planned for Sunday, Aug. 29. The spacecraft is expected to spend about a month attached to the space station before it splashes down off the coast of Florida, returning with research and cargo.

Tune in to NASA TV or the agency’s website for live coverage of mission activities, beginning Friday at noon with the prelaunch news conference. Launch day coverage, which also can be found here, starts Saturday at 3:15 a.m. EDT.

Weather 60% Percent Favorable for Saturday’s Launch

Weather officials with Cape Canaveral Space Force Station’s 45th Weather Squadron predict a 60% chance of favorable weather conditions for Saturday’s launch from the Space Coast, with the cumulus cloud rule and flight through precipitation serving as the primary weather concerns.

NASA commercial cargo provider SpaceX is targeting Aug. 28, at 3:37 a.m. EDT, to launch its 23rd commercial resupply services mission to the International Space Station. Liftoff will be from Launch Complex 39A at the agency’s Kennedy Space Center in Florida. SpaceX’s Dragon spacecraft will deliver new science investigations, supplies, and equipment for the international crew.

One experiment will test an implantable, remote-controlled drug delivery system that will utilize a new research facility aboard the orbiting laboratory. Upon Dragon’s arrival – slated for Sunday, Aug. 29 – NASA astronauts Shane Kimbrough and Megan McArthur will monitor operations while the spacecraft autonomously docks to the orbiting laboratory’s Harmony module.

Live coverage will air on NASA Television, the NASA app and the agency’s website, with prelaunch events starting Friday, Aug. 27. Beginning Saturday at 3:15 a.m., join us here on the blog for live coverage, and follow along on NASA TV or the agency’s website for the live launch broadcast.

NASA Tests Ways to Reduce Stress in Plants Growing in Space

The Science Verification Test for NASA’s Advanced Plant Experiment-08 (APEX-08) takes place inside the Veggie growth chamber at NASA’s Kennedy Space Center in Florida on Nov. 6, 2020. Photo credit: NASA/Lucy Orozco

When astronauts embark on long-duration missions in the future, crews will grow food to supplement what they can bring with them. More than 20 years of continuously living and working in space aboard the International Space Station has provided many opportunities for crews and researchers to observe the challenges of growing plants in the stressful conditions of microgravity.

One experiment on NASA SpaceX’s 23rd Commercial Resupply Services mission to the space station will help determine the effect of plant stress responses to the microgravity environment. The Advanced Plant Experiment-08 (APEX-08) will grow Arabidopsis thaliana, a plant scientists routinely use for research. The study includes making genetic alterations that elicit a response in the pool of polyamines, a group of organic compounds that modulate plant responses to environmental stress.

Click here to read the complete feature.