Mars Rover Sample Return Mission Utilizing In Situ Production Of The Return Propellants


Project Hyreus

Author : National Aeronautics and Space Administration (NASA)

Publisher : Createspace Independent Publishing Platform

Page : 384 pages

File Size : 27,52 MB

Release : 2018-07-27

Category :

ISBN : 9781724345080

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Project Hyreus is an unmanned Mars sample return mission that utilizes propellants manufactured in situ from the Martian atmosphere for the return voyage. A key goal of the mission is to demonstrate the considerable benefits of using indigenous resources and to test the viability of this approach as a precursor to manned Mars missions. The techniques, materials, and equipment used in Project Hyreus represent those that are currently available or that could be developed and readied in time for the proposed launch date in 2003. Project Hyreus includes such features as a Mars-orbiting satellite equipped with ground-penetrating radar, a large rover capable of sample gathering and detailed surface investigations, and a planetary science array to perform on-site research before samples are returned to Earth. Project Hyreus calls for the Mars Landing Vehicle to land in the Mangala Valles region of Mars, where it will remain for approximately 1.5 years. Methane and oxygen propellant for the Earth return voyage will be produced using carbon dioxide from the Martian atmosphere and a small supply of hydrogen brought from Earth. This process is key to returning a large Martian sample to Earth with a single Earth launch. Abrego, Anita and Bair, Chris and Hink, Anthony and Kim, Jae and Koch, Amber and Kruse, Ross and Ngo, Dung and Nicholson, Heather and Nill, Laurie and Perras, Craig Unspecified Center NASA-CR-197189, NAS 1.26:197189 NASW-4435...



Mars Sample Return Mission Utilizing In-Situ Propellant Production

Author : National Aeronautics and Space Administration (NASA)

Publisher : Createspace Independent Publishing Platform

Page : 70 pages

File Size : 15,34 MB

Release : 2018-07-08

Category :

ISBN : 9781722629212

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This report presents the results of a study examining the potential of in-situ propellant production (ISPP) on Mars to aid in achieving a low cost Mars Sample Return (MSR) mission. Two versions of such a mission were examined: a baseline version employing a dual string spacecraft, and a light weight version employing single string architecture with selective redundancy. Both systems employed light weight avionics currently being developed by Lockheed Martin, Jet Propulsion Lab and elsewhere in the aerospace community, both used a new concept for a simple, light weight parachuteless sample return capsule, both used a slightly modified version of the Mars Surveyor lander currently under development at Lockheed Martin for flight in 1998, and both used a combination of the Sabatier-electrolysis and reverse water gas shift ISPP systems to produce methane/oxygen propellant on Mars by combining a small quantity of imported hydrogen with the Martian CO2 atmosphere. It was found that the baseline mission could be launched on a Delta 7925 and return a 0.5 kg sample with 82 percent mission launch margin;over and beyond subsystem allocated contingency masses . The lightweight version could be launched on a Mid-Lite vehicle and return a 0.25 kg sample with 11 percent launch margin, over and above subsystem contingency mass allocations. Zubrin, Robert and Price, Steve Unspecified Center...













Project Minerva: A Low Cost Manned Mars Mission Based on Indigenous Propellant Production

Author : National Aeronautics and Space Adm Nasa

Publisher : Independently Published

Page : 158 pages

File Size : 29,23 MB

Release : 2018-11-18

Category : Science

ISBN : 9781731394767

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Project Minerva is a low-cost manned Mars mission designed to deliver a crew of four to the Martian surface using only two sets of two launches from the Kennedy Space Center. Key concepts which make this mission realizable are the use of near-term technologies and in-situ propellant production, following the scenario originally proposed by R. Zubrin. The first set of launches delivers two unmanned payloads into low Earth orbit (LEO): the first payload consists of an Earth Return Vehicle (ERV), a propellant production plant, and a set of robotic vehicles; the second payload consists of the trans-Mars injection (TMI) upper stage. In LEO, the two payloads are docked and the configuration is injected into a Mars transfer orbit. The landing on Mars is performed with the aid of multiple aerobraking maneuvers. On the Martian surface, the propellant production plant uses a Sabatier/electrolysis type process to combine nine tons of hydrogen with carbon dioxide from the Martian atmosphere to produce over a hundred tons of liquid oxygen and liquid methane, which are later used as the propellants for the rover expeditions and the manned return journey of the ERV. The systems necessary for the flights to and from Mars, as well as those needed for the stay on Mars, are discussed. These systems include the transfer vehicle design, life support, guidance and communications, rovers and telepresence, power generation, and propellant manufacturing. Also included are the orbital mechanics, the scientific goals, and the estimated mission costs. Beder, David and Bryan, Richard and Bui, Tuyen and Caviezel, Kelly and Cinnamon, Mark and Daggert, Todd and Folkers, Mike and Fornia, Mark and Hanks, Natasha and Hamilton, Steve LIQUID ROCKET PROPELLANTS; MANNED MARS MISSIONS; MARS LANDING; ORBITAL MECHANICS; RETURN TO EARTH SPACE FLIGHT; TRANSFER ORBITS; UNIVERSITY PROGRAM; AEROBRAKING; EARTH ORBITS; ELECTRIC GENERATORS; LIFE SUPPORT SYSTEMS; LOW EARTH ORBITS; MARS SURFACE...



Mars Sample Return Mission

Author : James R. French

Publisher :

Page : 136 pages

File Size : 47,9 MB

Release : 1986

Category : Mars (Planet)

ISBN :

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