The SpaceX Dragon resupply spacecraft, carrying over 5,800 pounds of cargo, approaches the space station above the south Atlantic Ocean on July 16, 2022.
A SpaceX Dragon is on track to arrive at the International Space Station today, Saturday, March 23, with an expected docking of the cargo spacecraft about 7:16 a.m. EDT. Live coverage is underway on NASA+, NASA Television, the NASA app, and the agency’s website.
When it arrives to the space station, Dragon will dock to the station’s Harmony module. NASA astronauts Loral O’Hara and Michael Barratt will monitor the arrival of the spacecraft.
Dragon successfully launched on a SpaceX Falcon 9 rocket at 4:55 p.m. EDT, March 21, from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida, carrying more than 6,000 pounds of research, hardware, and supplies to the International Space Station.
The SpaceX Dragon cargo spacecraft approaches the space station for an automated docking loaded with over 7,000 pounds of science experiments, station hardware, and crew supplies on June 9.
A SpaceX Dragon cargo spacecraft splashed down at 10:30 a.m. EDT Friday, June 30, off the coast of Jacksonville, Florida, marking the return of the company’s 28th contracted cargo resupply mission to the International Space Station for NASA. The spacecraft carried approximately 3,600 pounds of valuable scientific experiments and other cargo back to Earth.
Scientific hardware and samples returning on the mission include the GRIP – Dexterous Manipulation in Microgravity chair used in the ESA (European Space Agency)-sponsored neurology experiments GRIP and GRASP (Gravitational References for Sensimotor Performance: Reaching and Grasping). GRIP studies how microgravity affects the manipulation of objects, while GRASP provides further insight into how the central nervous system adapts to the microgravity environment. The experiments have been on the space station almost six years, and the final in-orbit tests were completed in early 2023.
A SpaceX Dragon cargo spacecraft undocks from the station on June 29, 2023, to bring 3,600 pounds of science back to Earth. Credit: NASA TV
Following commands from ground controllers at SpaceX in Hawthorne, California, the company’s Dragon cargo spacecraft undocked at 12:30 p.m. EDT from the space-facing port of the station’s Harmony module. At the time of undocking the station was flying at an altitude about 260 miles northeast of the Indian Ocean west of Indonesia.
After re-entering Earth’s atmosphere, the spacecraft will make a parachute-assisted splashdown off the coast of Florida on Friday, June 30. NASA will not broadcast the splashdown, but updates will be posted on the agency’s space station blog.
Dragon arrived at the station June 6 as SpaceX’s 28th Commercial Resupply Services mission for NASA, delivering more than 7,000 pounds of research investigations, crew supplies, and station hardware, including two IROSAs, or International Space Station Roll-Out Solar Arrays. The spacecraft was launched June 5 on a SpaceX Falcon 9 rocket from Launch Complex 39A at NASA’s Kennedy Space Center in Florida.
The SpaceX Dragon cargo spacecraft is pictured departing the vicinity of the space station following its undocking from the Harmony module’s space-facing port on January 9, 2023.
Live coverage of the departure of a SpaceX Dragon cargo spacecraft from the International Space Station is underway on NASA Television, the agency’s website, and the NASA app.
Following commands from ground controllers at SpaceX in Hawthorne, California, Dragon will undock at 12:30 p.m. EDT from the space-facing port of the station’s Harmony module and fire its thrusters to move a safe distance away from the station.
After re-entering Earth’s atmosphere, the spacecraft will make a parachute-assisted splashdown off the coast of Florida about 10:30 a.m. Friday, June 30. NASA will not broadcast the splashdown, but updates will be posted on the agency’s space station blog.
The Solid Fuel Ignition and Extinction (SoFIE) Growth and Extinction Limits (GEL) experiment aboard the International Space Station (ISS) studies flame growth and extinction in an effort to improve fire safety in space. This image shows a sequence of snapshots taken about 3 seconds apart. Gel samples from the investigation are returning to Earth for further analysis on the SpaceX CRS-27 cargo Dragon spacecraft.
SpaceX’s uncrewed Dragon cargo spacecraft splashed down at 4:58 p.m. EDT Saturday, April 15, off the coast of Tampa, Florida, marking the return of the company’s 27th contracted cargo resupply mission to the International Space Station for NASA. The spacecraft carried approximately 4,300 pounds of valuable scientific experiments and other cargo back to Earth.
Some of the scientific investigations that Dragon is carrying include:
Space tomato harvest: Samples from the Pick-and-Eat Salad-Crop Productivity, Nutritional Value, and Acceptability to Supplement the International Space Station Food System (Veg-05) experiment will be returning to Earth for analysis. Astronauts grew dwarf tomatoes in the station’s Veggie miniature greenhouse and performed three harvests at 90, 97, and 104 days. They froze tomatoes, water samples, and swabs of the growth hardware to examine the effects of light quality and fertilizer on fruit production, microbial safety, and nutritional value. The ability to grow plants in space for fresh food and an improved crew living experience is important for future long-duration missions. The hardware could be adapted for use on Earth to provide fresh produce for those without access to gardens and as horticultural therapy for older people and people with disabilities.
Growing higher quality crystals: Hicari, an investigation from JAXA (Japan Aerospace Exploration Agency), tested a growth method and produced crystals of a silicon-germanium (SiGe) semiconductor using the Japanese Experiment Module-Gradient Heating Furnace (JEM-GHF). This crystal growth method could support development of more efficient solar cells and semiconductor-based electronics. The space-produced crystals are returning to Earth for analysis.
Analyzing aging arteries: Astronauts can experience accelerated arterial wall stiffening and thickening after six months in space, and a daily session of aerobic exercise alone may not be sufficient to counteract these effects. Vascular Aging, an investigation from CSA (Canadian Space Agency), monitors these changes using artery ultrasounds, blood samples, glucose tolerance tests, and wearable sensors. Results could help identify and assess risk to astronaut cardiovascular health and point to mechanisms for reducing that risk. For the aging population on Earth, understanding the mechanisms behind arterial stiffness could provide insight to guide prevention and treatment. Blood samples collected for the investigation are returning to Earth for analysis.
Fire safety: Solid Fuel Ignition and Extinction – Growth and Extinction Limit (SoFIE-Gel) studies burning in microgravity, including how fuel temperature affects material flammability. The investigation could improve safety of crew members on future missions by increasing understanding of early fire growth behavior, informing selection of fire-resistant spacecraft cabin materials, validating flammability models, and helping to determine optimal fire suppression techniques. Studying flames in space without the complications of buoyancy also helps improve computer models of combustion for terrestrial applications. Gel samples from the investigation are returning to Earth for further analysis.
A SpaceX cargo Dragon undocked from the International Space Station at 11:05 a.m. EDT on April 15, 2023, as the station was flying over the Indian Ocean. It will return nearly 4,300 pounds of scientific samples and hardware for NASA.
Following commands from ground controllers at SpaceX in Hawthorne, California, Dragon undocked at 11:05 a.m. from the forward port of the station’s Harmony module. At the time of undocking the station was flying over the Indian Ocean.
After re-entering Earth’s atmosphere, the spacecraft will make a parachute-assisted splashdown off the coast of Florida on Saturday, April 15. NASA will not broadcast the splashdown, but updates will be posted on the agency’s space station blog.
Dragon arrived at the space station March 16 as SpaceX’s 27th Commercial Resupply Services mission for NASA, delivering more than 6,000 pounds of research investigations, crew supplies, and station hardware. It was launched March 14 on a SpaceX Falcon 9 rocket from Launch Complex 39A at Kennedy.
A SpaceX Dragon resupply ship approaches the International Space Station carrying more than 6,200 pounds of science experiments, crew supplies, and other cargo on March 16, 2023.
Live coverage of the departure of SpaceX’s uncrewed Dragon cargo spacecraft from the International Space Station is underway on NASA Television, the agency’s website, and the NASA app.
Following commands from ground controllers at SpaceX in Hawthorne, California, Dragon will undock at 11:05 a.m. EDT from the forward port of the station’s Harmony module and fire its thrusters to move a safe distance away from the station.
After re-entering Earth’s atmosphere, the spacecraft will make a parachute-assisted splashdown off the coast of Florida on Saturday, April 15. NASA will not broadcast the splashdown, but updates will be posted on the agency’s space station blog.
The last rays of an orbital sunset fade below Earth’s horizon in this photograph from the International Space Station as it orbited 269 miles above the Atlantic Ocean just off the coast of southern Argentina on Feb. 17, 2023.
Dragon successfully docked to the forward-facing port of the station’s Harmony module, delivering more than 6,200 pounds of research, hardware, and supplies. Afterward, NASA Flight Engineers Frank Rubio, Stephen Bowen, Woody Hoburg, and Flight Engineer Sultan Alneyadi from UAE (United Arab Emirates) spent time unloading cargo from the spacecraft. Alneyadi and Rubio were specifically tasked with unpacking double-cold bags for transporting samples into the station’s Minus Eighty Laboratory Freezer, or MELFI.
NASA astronauts were occupied with research studies and lab upkeep work as well. Bowen removed containers from the Kubik temperature-controlled incubator for studying biological samples in microgravity. Hoburg took turns with Bowen setting up equipment to perform a saliva collection.
Alneyadi replaced components in the station’s bathroom, also known as the Waste and Hygiene Compartment, before performing a functionality test. He later retrieved an air sample from inside Dragon for analysis with the ANITA-2 (Analyzing Interferometer for Ambient Air-2) device.
Meanwhile, Flight Engineer Andrey Fedyaev of Roscosmos prepared for a session for the Pilot-T experiment, which assesses the ability of cosmonauts to perform complex tasks at different points during their spaceflight. Cosmonauts Sergey Prokopyev and Dmitri Petelin gathered to review equipment to return in the Soyuz MS-22 spacecraft. A coolant leak was discovered last December on the Soyuz MS-22, which is slated to undock without crew from the station’s Rassvet Module on March 28.
SpaceX’s 27th commercial resupply mission docked to the Harmony module’s space-facing port at 7:31 a.m. EDT today as the station was flying 261 miles over northeastern China. Credits: NASA TV.
While the International Space Station was traveling more than 261 miles over North Eastern China, a SpaceX Dragon cargo spacecraft autonomously docked to station’s Harmony module at 7:31 a.m. EDT, with NASA astronaut Woody Hoburg monitoring operations from the station.
The Dragon launched on SpaceX’s 27th contracted commercial resupply mission for NASA at 8:30 p.m. EDT, March 14, from Launch Complex 39A at the agency’s Kennedy Space Center in Florida. After Dragon spends about one month attached to the space station, the spacecraft will return to Earth with cargo and research.
Among the science experiments Dragon is delivering to the space station are:
Cardinal Heart 2.0
The first Cardinal Heart investigation conducted aboard the space station showed that four weeks of microgravity exposure can cause significant changes in heart cell function and gene expression. Researchers concluded that these changes could lead to long-term medical issues. The Cardinal Heart 2.0 experiment builds on these results, using heart organoids, 3D structures made up of all the different types of cells in a particular organ, to test whether clinically approved drugs reduce these microgravity-induced changes in heart cell function. Results could support the development of effective drug combinations to improve the health of astronauts and patients on Earth.
Engineered Heart Tissues-2
This study continues work with 3D cultured cardiac muscle tissue to assess human cardiac function in microgravity. Previous work with 3D cultures in space detected changes at the cellular and tissue level that could provide early indication of the development of cardiac disease. This investigation tests whether new therapies prevent these adverse spaceflight effects from occurring. The model used in this study has potential use in drug development and other applications related to diagnosing and treating cardiac dysfunction on Earth.
Cardinal Heart 2.0 and Engineered Heart Tissues-2 are the final two experiments comprising the National Institutes for Health and ISS National Lab’s Tissue Chips in Space initiative. Researchers hope to learn more about the impact of microgravity on human health and disease and translate that understanding to improved human health on Earth.
HUNCH Ball Clamp Monopod
NASA’s High school students United with NASA to Create Hardware (HUNCH) program enables students to fabricate real-world products for NASA as they apply their science, technology, engineering, and mathematics skills. The HUNCH Ball Clamp Monopod attempts to address astronaut comments on the difficulty of positioning video or still cameras in the middle of a module. The student-manufactured project is composed of an aluminum monopod fitted with a camera shoe and ball clamp that can be attached to a standard space station handrail. The ball clamp serves as a pivoting platform for photography and video.
CapiSorb Visible System
Because microgravity makes it difficult to control the flow of liquids, the space station has been unable to take advantage of carbon dioxide removal methods that use specialized liquids. Liquid-based carbon dioxide removal systems such as those on submarines offer higher efficiency than other types of systems. The CapiSorb Visible System study demonstrates liquid control using capillary forces, the interaction of a liquid with a solid that can draw a fluid up a narrow tube, which are characteristic of liquids that can absorb carbon dioxide. This is an important consideration for future longer-duration space missions where improved efficiency will support crews over many months or years.
ESA-Biofilms
Microbial biofilms are combinations of microorganisms that embed themselves in a self-produced slimy matrix. Biofilms are of concern for spaceflight because they can cause damage to equipment, are resistant to cleaning agents, and can harbor microorganisms that might cause infections. The ESA (European Space Agency) – Biofilms investigation studies bacterial biofilm formation and antimicrobial properties of different metal surfaces under spaceflight conditions. Antimicrobial surfaces that can inhibit biofilm growth, such as copper and its alloys with and without laser surface treatment, are used in this study. This project provides additional information to help develop suitable antimicrobial surfaces for future spacecraft.
Tanpopo-5
The JAXA (Japan Aerospace Exploration Agency) Tanpopo-5 investigation studies the origin, transportation, and survival of life in space and on extraterrestrial planets, such as Mars. The study focuses on exposing a radioresistant bacteria, which are resistant to radiation, and sporophytes of moss, an important piece of the lifecycle of some plants, to the harsh environment of space using the exposed Experiment Bracket Attached on I-SEEP (ExBAS) facility mounted on the outside of station. Results are helping answer key questions of the “panspermia” hypothesis, a theory for the initiation of life on Earth and the transport of life among celestial bodies.
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 through NASA’s Artemis missions and eventually Mars.
The SpaceX Dragon cargo craft, loaded with over 7,700 pounds of science, supplies, and cargo, approaches the space station for a docking on Nov. 27, 2022.
A SpaceX Dragon is on track to arrive at the International Space Station today, Thursday, March 16, with an expected docking of the cargo spacecraft about 7:28 a.m. EDT. Live coverage is underway on NASA Television, the NASA app, and the agency’s website.
When it arrives to the space station, Dragon will dock to the station’s Harmony module.
Dragon successfully launched on a SpaceX Falcon 9 rocket at 8:30 p.m. EDT, March 14, from Launch Complex 39A at NASA’s Kennedy Space Center in Florida, carrying more than 6,200 pounds of research, hardware, and supplies to the International Space Station.
