Traveling to Mars with a human crew poses challenges exceeding those facing the Apollo astronauts in terms of time, equipment and threatening environment. One problem is that access to Mars/Earth windows of travel are one to three years apart, not almost daily as for Apollo. When accessible, the round trip travel time for a chemical powered spacecraft is about 990 days, including a 480 day surface stay, whereas for the nuclear powered spacecraft assumed here only 370 days, including a 41 day surface stay. The former could very well doom the human crew because of the space radiation dose absorbed during the transits. Fast transit enabled by nuclear propulsion and radiation are thus strongly connected. Earth departure and arrival is not the surface of the Earth, but via rendezvous in low Earth orbit with an ISS. Before astronauts depart for the Martian surface there should be a one or morecargo craft that precedes the astronauts with life support materials to the surface as well as reconnaissance vehicles and scientific materials that are to remain on the surface. Ballistic entry into a randomly variable, unmeasured atmosphere results in imprecise landing points. For a single vehicle an uncertainty of tens of kilometers is not critical. For a human crew, with their transportation and survival resources lying kilometers from their landing site this is unacceptable, since long walks are not possible in current space suit concepts. An unmanned Mars orbiter cannot determine its precise location with respect to the planet. When the crewed spacecraft arrives it is vital that they establish the orbital parameters and their location with respect to geological features. Even then experience with the Soyuz capsule demonstrates how imprecise an Earth re-entry and landing location can be. Here we are recommending instead a modest L/D maneuvering cargo glider based on the Russian "Kliper" concept to assure landing within a hundred meters of each spacecraft. The crewed glider is based on the high L/D, inherently stable USAF FDL-7C/D derived glider. An exploration vehicle powered by in situ manufactured CO2 and silane can explore the Martian surface much faster and efficiently than with rovers or rocket-powered 'hoppers'. © 2011 by Claudio Bruno and Paul Czysz.

Aeronautical approach and support to mars exploration / Bruno, Claudio; Ingenito, Antonella; Simone, Domenico; P., Czysz; J. w., Lee. - ELETTRONICO. - Paper N. AIAA-2011-5724:(2011). (Intervento presentato al convegno 47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit 2011 tenutosi a San Diego; United States nel 31 July 2011 through 3 August 2011) [10.2514/6.2011-5724].

Aeronautical approach and support to mars exploration

BRUNO, Claudio;INGENITO, ANTONELLA;SIMONE, Domenico;
2011

Abstract

Traveling to Mars with a human crew poses challenges exceeding those facing the Apollo astronauts in terms of time, equipment and threatening environment. One problem is that access to Mars/Earth windows of travel are one to three years apart, not almost daily as for Apollo. When accessible, the round trip travel time for a chemical powered spacecraft is about 990 days, including a 480 day surface stay, whereas for the nuclear powered spacecraft assumed here only 370 days, including a 41 day surface stay. The former could very well doom the human crew because of the space radiation dose absorbed during the transits. Fast transit enabled by nuclear propulsion and radiation are thus strongly connected. Earth departure and arrival is not the surface of the Earth, but via rendezvous in low Earth orbit with an ISS. Before astronauts depart for the Martian surface there should be a one or morecargo craft that precedes the astronauts with life support materials to the surface as well as reconnaissance vehicles and scientific materials that are to remain on the surface. Ballistic entry into a randomly variable, unmeasured atmosphere results in imprecise landing points. For a single vehicle an uncertainty of tens of kilometers is not critical. For a human crew, with their transportation and survival resources lying kilometers from their landing site this is unacceptable, since long walks are not possible in current space suit concepts. An unmanned Mars orbiter cannot determine its precise location with respect to the planet. When the crewed spacecraft arrives it is vital that they establish the orbital parameters and their location with respect to geological features. Even then experience with the Soyuz capsule demonstrates how imprecise an Earth re-entry and landing location can be. Here we are recommending instead a modest L/D maneuvering cargo glider based on the Russian "Kliper" concept to assure landing within a hundred meters of each spacecraft. The crewed glider is based on the high L/D, inherently stable USAF FDL-7C/D derived glider. An exploration vehicle powered by in situ manufactured CO2 and silane can explore the Martian surface much faster and efficiently than with rovers or rocket-powered 'hoppers'. © 2011 by Claudio Bruno and Paul Czysz.
2011
47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit 2011
Geological features; Landing locations; Nuclear powered spacecraft
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Aeronautical approach and support to mars exploration / Bruno, Claudio; Ingenito, Antonella; Simone, Domenico; P., Czysz; J. w., Lee. - ELETTRONICO. - Paper N. AIAA-2011-5724:(2011). (Intervento presentato al convegno 47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit 2011 tenutosi a San Diego; United States nel 31 July 2011 through 3 August 2011) [10.2514/6.2011-5724].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/412491
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