NTL Record

Title Space weather biological and systems effects for suborbital flights
Record ID 61830
Personal Name
Creator
Turner, R. E.; Farrier, T. A.; Mazur, J. E.; Walterscheid, R. L.; Seibold, R. W.
Source 64p. in various pagings
Corporate Creator John A. Volpe National Transportation Systems Center (U.S.); Aerospace Corporation
Corporate
Contributor
United States. Department of Transportation. Federal Aviation Administration. Office of the Associate Administrator for Commercial Space Transportation
Publisher Aerospace Corporation
Publication Date 20081031
Language English
Abstract The Aerospace Corporation was tasked to assess the impacts of space weather on both RLVs and ELVs operating at suborbital altitudes from launch sites located in the low (equatorial regions), middle, and high latitudes. The present report presents a broad overview of the space environment, seeks to quantify radiation exposure, and describes the potential hazards that a suborbital RLV, including passengers and crew, can expect to encounter during a suborbital flight from launch points located in the low, middle, and high latitudes. Owing to the short duration of flights (~30 minutes, or less), the even shorter exposure at altitudes where all but the most energetic particles may penetrate with significant fluxes (~ 5 minutes) the exposure of crew and passengers is minimal, except under circumstance such as Solar Particle Events (SPEs) occurring less than ~ 5% of the time. Under typical conditions the radiation exposure to crew and passengers on a suborbital flight is less that for a long duration airline flight. Avoiding exposure to potentially harmful radiation associated with solar or geophysical disturbances can be achieved by locating launch sites at middle latitudes, or lower or by delaying flights when there are indications that an SPE is in progress or is imminent. It is most likely that the lower intensity primary and secondary radiation environments below some latitudes are benign enough that launch can occur at any time, including the ~5% of the time when particular events associated with potentially significant risk occur. In the case of a high-latitude site, such as the site considered here, a possible launch commit criterion could be based on event probability distributions. Forecasts and monitoring (now-casting) support is available from NOAA’s Space Weather Prediction Center. Although the radiation risk for crew and passengers is minimal except possibly at high latitudes and during solar and geomagnetic disturbances, crew and passengers should be monitored for radiation exposure. This is because of the potential for litigation and the possibility, however remote, that the onset of an event such as an unanticipated SPE could occur during flight. Passengers should also be briefed on the radiation risks in the spirit of informed consent.
Rosap ID dot:12486
Rosap URL https://rosap.ntl.bts.gov/view/dot/12486
TRT Terms Commercial space transportation; Spacecraft; Regulation; Launch vehicles; Weather; Radiation hazards; Radiation doses
General Subjects Reusable launch vehicles; Expendable launch vehicles; Space weather; Suborbital
Classification NTL - AVIATION - AVIATION
Geographical
Coverage
United States
TRIS Online
Accession No
1638208
Contract Number DTRT57-05-30103, Task 13B; FA2R/DL411
Report Number ATR-2009(5390)-1; DOT-VNTSC-RITA-08-03
Availability Volpe National Transportation Systems Center, Technical Reference Center
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/61000/61800/61830/DOT-VNTSC-RITA-08-03.pdf
Format PDF
Database NTL Digital Repository