TY - GEN
T1 - Low mass radiation shielding for a manned interplanetary mission
AU - Fries, Dan
PY - 2014
Y1 - 2014
N2 - In the context of the Mars Society International Student Design Competition the possible dangers and counter measures to radiation hazards during interplanetary transit have been evaluated. The term space radiation mainly describes particle radiation, which is very dangerous for humans if certain doses are exceeded. The galactic cosmic radiation (GCR) consists of highly energetic particles (up to several TeV) but the fluxes are low. Therefore, GCR is only of concern, if long-term missions are planned such as manned flights to Mars with a time frame of over 1.5 years. Because of the high energies, GCR cannot be shielded effectively without a significant increase in weight, caused by additional shielding material or active shielding systems. Solar activity is the source of the second kind of space radiation. Solar particle events (SPE) increase the radiative fluxes by orders of magnitude but only possess energies of a few hundred MeV. This kind of radiation can and has to be shielded effectively since it can result in lethal doses within a short amount of time (minutes to hours). Therefore, storm shelters are typically used, which possess a high material density and hydrogen content. Using a smart design approach of protective elements, a solar storm-shelter is created with a minimum increase in overall system weight. Thus, the radiation exposure is kept below the prescribed lifetime doses for astronauts. Since the habitat mass for Trans-Mars-Injection is very limited, the highest level of synergy between different subsystems and radiation protection is necessary. The greatest benefits can be achieved through a smart system layout and recycling. The usage of a system that produces tiles from waste to fortify the shielding is proposed. Furthermore, process water, feces, food and wet wipes can be arranged to result in protective curtains. Polyethylene, due to its high hydrogen content, is a promising material to decrease radiation doses. Several propositions are made for its usage. The overall goals are the effective sheltering of the crew from radiation while keeping the increase in mass at a minimum. Both are key requirements to achieve interplanetary manned space flight with currently available technology.
AB - In the context of the Mars Society International Student Design Competition the possible dangers and counter measures to radiation hazards during interplanetary transit have been evaluated. The term space radiation mainly describes particle radiation, which is very dangerous for humans if certain doses are exceeded. The galactic cosmic radiation (GCR) consists of highly energetic particles (up to several TeV) but the fluxes are low. Therefore, GCR is only of concern, if long-term missions are planned such as manned flights to Mars with a time frame of over 1.5 years. Because of the high energies, GCR cannot be shielded effectively without a significant increase in weight, caused by additional shielding material or active shielding systems. Solar activity is the source of the second kind of space radiation. Solar particle events (SPE) increase the radiative fluxes by orders of magnitude but only possess energies of a few hundred MeV. This kind of radiation can and has to be shielded effectively since it can result in lethal doses within a short amount of time (minutes to hours). Therefore, storm shelters are typically used, which possess a high material density and hydrogen content. Using a smart design approach of protective elements, a solar storm-shelter is created with a minimum increase in overall system weight. Thus, the radiation exposure is kept below the prescribed lifetime doses for astronauts. Since the habitat mass for Trans-Mars-Injection is very limited, the highest level of synergy between different subsystems and radiation protection is necessary. The greatest benefits can be achieved through a smart system layout and recycling. The usage of a system that produces tiles from waste to fortify the shielding is proposed. Furthermore, process water, feces, food and wet wipes can be arranged to result in protective curtains. Polyethylene, due to its high hydrogen content, is a promising material to decrease radiation doses. Several propositions are made for its usage. The overall goals are the effective sheltering of the crew from radiation while keeping the increase in mass at a minimum. Both are key requirements to achieve interplanetary manned space flight with currently available technology.
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M3 - Conference contribution
AN - SCOPUS:84938057392
T3 - Proceedings of the International Astronautical Congress, IAC
SP - 165
EP - 175
BT - 65th International Astronautical Congress 2014, IAC 2014
PB - International Astronautical Federation, IAF
T2 - 65th International Astronautical Congress 2014: Our World Needs Space, IAC 2014
Y2 - 29 September 2014 through 3 October 2014
ER -