STS-79 - Mission Highlights

Mission Highlights

STS-79 was the first shuttle mission to a fully completed Mir space station, following the arrival of its Priroda module. This spaceflight was highlighted by the download of American astronaut Shannon Lucid after 188 days in space, the first American crewmember exchange aboard the Russian Space Station Mir, and the fourth Shuttle-Mir docking. Lucid's long-duration spaceflight set a new American record, as well as worldwide spaceflight record for a woman astronaut. She embarked to Mir 22 March on the STS-76 mission. Succeeding her on Mir for an approximately four-month stay was John Blaha, who returned in January 1997 with the STS-81 crew. American astronaut Jerry Linenger replaced him.

STS-79 also marked the second flight of the SPACEHAB module in support of a Shuttle-Mir docking and the first flight of the SPACEHAB Double Module configuration. The forward portion of the double module housed experiments conducted by the crew before, during and after Atlantis was docked to the Russian space station. The aft portion of the double module housed the logistics equipment to be transferred to Mir, which included food, clothing, experiments, supplies, and spare equipment.

The Shuttle-Mir link-up occurred at 11:13 pm EDT on 18 September, following R-bar approach. Hatches opened at 1:40 am on 19 September, and Blaha and Lucid exchanged places at 7 am EDT. Awaiting Blaha on Mir were Valery Korzun, Mir 22 commander, and Alexander Kaleri, flight engineer.

During five days of mated operations, the two crews transferred more than 1,814 kilograms (4,000 lb) of supplies to Mir, including logistics, food, and water generated by Atlantis's fuel cells. Three experiments were also transferred: the Biotechnology System (BTS) for study of cartilage development; the Material in Devices as Superconductors (MIDAS) experiment to measure electrical properties of high-temperature superconductor materials; and the Commercial Generic Bioprocessing Apparatus (CGBA), containing several smaller experiments, including self-contained aquatic systems.

About 907 kilograms (2,000 lb) of experiment samples and equipment were transferred from Mir to Atlantis and the total logistical transfer to and from station of more than 2,722 kilograms (6,000 lb) was the most extensive to date. During her approximately six-month stay on Mir, Lucid conducted research in the following fields: advanced technology, Earth sciences, fundamental biology, human life sciences, microgravity research and space sciences. Specific experiments included: Environmental Radiation Measurements to ascertain ionizing radiation levels aboard Mir; Greenhouse-Integrated Plant Experiments, to study effect of microgravity on plants, specifically dwarf wheat; and Assessment of Humoral Immune Function During Long-Duration Space Flight, to gather data on effect of long-term spaceflight on the human immune system and involving collection of blood serum and saliva samples. Some of this research was conducted in the newest and final Mir module, Priroda, which arrived at station during Lucid’s stay.

Three experiments remained on Atlantis: Extreme Temperature Translation Furnace (ETTF), a new furnace design allowing space-based processing up to 871 degrees Celsius (1,600 degrees Fahrenheit) and above; Commercial Protein Crystal Growth (CPCG) complement of 128 individual samples involving 12 different proteins; and Mechanics of Granular Materials, designed to further understanding of behavior of cohesionless granular materials, which could in turn lead to better understanding of how Earth’s surface responds during earthquakes and landslides.

As with all Shuttle-Mir flights, risk-mitigation experiments were conducted to help reduce development risk for the International Space Station. Flying for first time was the Active Rack Isolation System (ARIS), an experiment rack designed to cushion payloads from vibration and other disturbances.

Conducted near the end of STS-79 was a test using Atlantis's small vernier jets to lower her orbit. A similar maneuver may be employed at end of second Hubble Space Telescope servicing mission, STS-82, to re-boost Hubble to a higher orbit while still in orbiter payload bay.