In the 1980s Donald Kessler of NASA noted the continuing buildup of space debris and projected that if not mitigated, it would severely limit future safe access to space. In particular, he noted that at some stage the accumulation of orbital space debris would begin to create new debris due to collisions and that this cascading process would threaten the long-term sustainability of human activities in space, including key space applications for communications, navigation, remote sensing, and weather monitoring. This concern, which today is quite real, has become known as the Kessler syndromeKessler syndrome. Today there are international guidelines to control the debris population by deorbiting the upper stages of launch vehicles and other preventive measures. These include the 25 year rule for active or passive deorbiting of debris and the degassing of excess fuel that can lead to explosions in space. But these guidelines are insufficient to prevent the buildup of additional debris, particularly in low earth orbit and polar orbits, where the problem is more severe. There is increasing international agreement that a process for active removal of orbital debris elements – once they are clearly defined – will become necessary to address this problem that continues to grow worse over time despite the guidelines to minimize new debris.
This orbital debris problem is a difficult one for many reasons. The cost of active debris removal is very high and the appropriate technology that would be ideal for this purpose remains elusive. Nevertheless, many proposals regarding various debris mitigation methodologies are being pursued. The launch of many small satellites with many of them lacking either an active or passive deorbit capability complicates the orbital debris problem even further. In addition to the technical and prohibitive cost associated with active orbital debris mitigation, there are legal issues as well. The current space law regime has no formal definition of space debris in that all elements in space are simply known as “space objects” despite whether they are functional or not. Current legal liability provisions that place all liability with the launching State do not help to facilitate any active removal activity. In short there are no incentives to remove debris from space at this time. This chapter addresses the threats to the long-term sustainability of space posed by the continuing buildup of space debris. In particular, it addresses current efforts and plans around the world to address the space debris problem with active removal and mitigation techniques and possible international legal changes or agreements that might facilitate these actions.
Active Orbital Debris RemovalActive orbital debris removal and the Sustainability of Space
Handbook of Cosmic Hazards and Planetary Defense ; Kapitel : 75 ; 921-940
2015-01-01
20 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Active orbital debris removal , Committee on the Peaceful Uses of Outer Space (COPUOS), electro-dynamic propulsion , Inter-Agency Space Debris Coordination Committee (IADC) , Liability convention , Kessler syndrome , Mitigation techniques , Outer space treaty , Robotic systems , Space weapons , Space data association , Space debris , Space object , Sustainability of space , United Nations Engineering , Aerospace Technology and Astronautics , Natural Hazards , Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics) , Paleontology
NTIS | 1991
NTRS | 1989
|NTRS | 1991