HOME

TheInfoList



OR:

The NASA Orbital Debris Program Office is located at the
Johnson Space Center The Lyndon B. Johnson Space Center (JSC) is NASA's center for human spaceflight (originally named the Manned Spacecraft Center), where human spaceflight training, research, and flight control are conducted. It was renamed in honor of the late U ...
and is the lead
NASA The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research. NASA was established in 1958, succeeding t ...
center for
orbital debris Space debris (also known as space junk, space pollution, space waste, space trash, or space garbage) are defunct human-made objects in space—principally in Earth orbit—which no longer serve a useful function. These include derelict spacecr ...
research. It is recognized world-wide for its leadership in addressing orbital debris issues. The NASA Orbital Debris Program Office has taken the international lead in conducting measurements of the environment and in developing the technical consensus for adopting mitigation measures to protect users of the orbital environment. Work at the center continues with developing an improved understanding of the orbital debris environment and measures that can be taken to control its growth. Orbital Debris research at NASA is divided into several broad research efforts, involving modeling, measurements, protection, mitigation and reentry of orbital debris.


Modeling

NASA scientists continue to develop and upgrade orbital debris models to describe and characterize the current and future debris environment. Engineering models, such as ORDEM2000, can be used for debris impact risk assessments for spacecraft and satellites, including the
International Space Station The International Space Station (ISS) is the largest modular space station currently in low Earth orbit. It is a multinational collaborative project involving five participating space agencies: NASA (United States), Roscosmos (Russia), JAXA ...
and the
Space Shuttle The Space Shuttle is a retired, partially reusable low Earth orbital spacecraft system operated from 1981 to 2011 by the U.S. National Aeronautics and Space Administration (NASA) as part of the Space Shuttle program. Its official program na ...
. Evolutionary models, such as EVOLVE and LEGEND, are designed to predict the future debris environment. They are reliable tools to study how the future debris environment reacts to various mitigation practices. ORDEM2000 was replaced in 2010 by ORDEM2010. This release represents a significant improvement in the NASA ODPO’s empirically-based debris assessment modeling program. This version of the long-running series includes ten years of additional data, new validated high-fidelity environment models, new statistical processes for data and model analysis, the extension of the modeling through GEO, the inclusion of debris material density, and a new spacecraft-encompassing igloo analysis package, with an advanced companion GUI.


Measurements

Measurements of near-Earth orbital debris are accomplished by conducting ground-based and space-based observations of the orbital debris environment. Data is acquired using ground-based radars and optical telescope

space-based telescopes, and analysis of spacecraft surfaces returned from space. Some important data sources have been the U.S. Space Surveillance Network, the Haystack X-Band Radar, and returned surfaces from the Solar Max,
Long Duration Exposure Facility NASA's Long Duration Exposure Facility, or LDEF (pronounced "eldef"), was a school bus-sized cylindrical facility designed to provide long-term experimental data on the outer space environment and its effects on space systems, materials, operatio ...
(LDEF), and the Space Shuttle spacecraft. The data provide validation of the environment models and identify the presence of new sources.


Protection

Orbital debris protection involves conducting hypervelocity impact measurements to assess the risk presented by orbital debris to operating spacecraft and developing new materials and new designs to provide better protection from the environment with less weight penalty. The data from this work provides the link between the environment defined by the models and the risk presented by that environment to operating spacecraft and provides recommendations on design and operations procedures to reduce the risk as required. These data also help in the analysis and interpretation of impact features on returned spacecraft surfaces. The primary facility for this research is the
Hypervelocity Impact Technology Facility Hypervelocity is very high velocity, approximately over 3,000 meters per second (6,700 mph, 11,000 km/h, 10,000 ft/s, or Mach 8.8). In particular, hypervelocity is velocity so high that the strength of materials upon impact is v ...
(HIT-F) at NASA JSC in Houston, although there are other facilities at JSC, New Mexico, and various DoD laboratories.


Mitigation

Controlling the growth of the orbital debris population is a high priority for NASA, the United States, and the major space-faring nations of the world to preserve near-Earth space for future generations. Mitigation measures can take the form of curtailing or preventing the creation of new debris, designing satellites to withstand impacts by small debris, and implementing operational procedures ranging from utilizing orbital regimes with less debris, adopting specific spacecraft attitudes, and even maneuvering to avoid collisions with debris. In 1995 NASA was the first space agency in the world to issue a comprehensive set of orbital debris mitigation guidelines. Two years later, the U.S. Government developed a set of
Orbital Debris Mitigation Standard Practices Space debris (also known as space junk, space pollution, space waste, space trash, or space garbage) are defunct human-made objects in space—principally in Earth orbit—which no longer serve a useful function. These include derelict spacecr ...
, based on the NASA guidelines. Other countries and organizations, including
Japan Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...
,
France France (), officially the French Republic ( ), is a country primarily located in Western Europe. It also comprises of Overseas France, overseas regions and territories in the Americas and the Atlantic Ocean, Atlantic, Pacific Ocean, Pac ...
,
Russia Russia (, , ), or the Russian Federation, is a List of transcontinental countries, transcontinental country spanning Eastern Europe and North Asia, Northern Asia. It is the List of countries and dependencies by area, largest country in the ...
, and the
European Space Agency , owners = , headquarters = Paris, Île-de-France, France , coordinates = , spaceport = Guiana Space Centre , seal = File:ESA emblem seal.png , seal_size = 130px , image = Views in the Main Control Room (1205 ...
(ESA), have followed suit with their own orbital debris mitigation guidelines. In 2002 after a multi-year effort, the
Inter-Agency Space Debris Coordination Committee The Inter-Agency Space Debris Coordination Committee (IADC) is an inter-governmental forum whose aim is to co-ordinate efforts to deal with debris in orbit around the Earth founded in 1993. Members * Agenzia Spaziale Italiana (ASI) * Centre Nat ...
(IADC), comprising the space agencies of 10 countries as well as ESA, adopted a consensus set of guidelines designed to mitigate the growth of the orbital debris population. These guidelines were formally presented to the Scientific and Technical Subcommittee of the
United Nations Committee on the Peaceful Uses of Outer Space The United Nations Committee on the Peaceful Uses of Outer Space (COPUOS) is a United Nations committee whose main task is to review and foster international cooperation in the peaceful uses of outer space, as well as to consider legal issues ar ...
in February 2003.


Reentry

Because of the increasing number of objects in space, NASA has adopted guidelines and assessment procedures to reduce the number of non-operational spacecraft and spent rocket upper stages orbiting the Earth. One method of postmission disposal is to allow reentry of these spacecraft, either from orbital decay (uncontrolled entry) or with a controlled entry. Orbital decay may be achieved by firing engines to lower the perigee altitude so that atmospheric drag will eventually cause the spacecraft to enter. However, the surviving debris impact footprint cannot be guaranteed to avoid inhabited landmasses. Controlled entry normally occurs by using a larger amount of propellant with a larger propulsion system to drive the spacecraft to enter the atmosphere at a steeper flight path angle. It will then enter at a more precise latitude, longitude, and footprint in a nearly uninhabited impact region, generally located in the ocean. Spacecraft that re-enter from either orbital decay or controlled entry usually breakup at altitudes between 84-72 km due to aerodynamic forces causing the allowable structural loads to be exceeded. The nominal breakup altitude for spacecraft is considered to be 78 km. Larger, sturdier, and denser satellites generally breakup at lower altitudes. Solar arrays frequently break off the spacecraft parent body around 90-95 km because of the aerodynamic forces causing the allowable bending moment to be exceeded at the array/spacecraft attach point. After spacecraft (or parent body) breakup, individual components or fragments will continue to lose altitude and receive aeroheating until they either demise or survive to impact the Earth. Many spacecraft components are made of aluminum, which has a low melting point. As a result, these components usually demise at a higher altitude. On the other hand, if an object is made of a material with a high melting point, (e.g., titanium, stainless steel, beryllium, carbon-carbon), the object will demise at a lower altitude and in many cases will survive. Also, if an object is contained inside a housing, the housing must demise before the internal object receives significant aeroheating. Some objects may have a very high melting point temperature such that they can never demise, but are so light (e.g., tungsten shims) that they impact with a very low velocity. As a result, the kinetic energy at impact is sometimes under 15 J, a threshold below which the probability of human casualty is very low. Thus, the debris casualty areas computed for these objects do not figure into the total debris casualty area in a reentry survivability analysis. The reentry survivability of spacecraft components is computed by either of two NASA methods. One is the Debris Assessment Software (DAS), a conservative, lower-fidelity software tool found under the "Mitigation" section and the second is a more accurate and higher-fidelity software tool called the
Object Reentry Survival Analysis Tool Object may refer to: General meanings * Object (philosophy), a thing, being, or concept ** Abstract object, Object (abstract), an object which does not exist at any particular time or place ** Physical object, an identifiable collection of matt ...
(ORSAT).


References

{{Reflist


External links


Official NASA Orbital Debris Program website
NASA groups, organizations, and centers