Herbert D. Thomas scite author profile

Herbert D. Thomas

5Publications

4Citation Statements Received

23Citation Statements Given

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Marshall Space Flight Center

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Human Mars ascent vehicle configuration and performance sensitivities

Polsgrove

Thomas

Stephens

et al. 2017

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The total ascent vehicle mass drives performance requirements for the Mars descent systems and the Earth to Mars transportation elements. Minimizing Mars Ascent Vehicle (MAV) mass is a priority and minimizing the crew cabin size and mass is one way to do that. Human missions to Mars may utilize several small cabins where crew members could live for days up to a couple of weeks. A common crew cabin design that can perform in each of these applications is desired and could reduce the overall mission cost. However, for the MAV, the crew cabin size and mass can have a large impact on vehicle design and performance. This paper explores the sensitivities to trajectory, propulsion, crew cabin size and the benefits and impacts of using a common crew cabin design for the MAV. Results of these trades will be presented along with mass and performance estimates for the selected design.

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Update to Mars Ascent Vehicle Design for Human Exploration

Polsgrove

Percy

Rucker

et al. 2019

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Astronauts on a mission to Mars will require several vehicles working together to get to Mars orbit, descend to the surface of Mars, support them while they're there, and return them to Earth. The Mars Ascent Vehicle (MAV) transports the crew off the surface of Mars to a waiting Earth return vehicle in Mars orbit and is a particularly influential part of the mission architecture because it sets performance requirements for the lander and in-space transportation vehicles. With this in mind, efforts have been made to minimize the MAV mass, and its impact on the other vehicles. A minimal mass MAV design using methane and in situ generated oxygen propellants was presented in 2015. Since that time, refinements have been made in most subsystems to incorporate findings from ongoing research into key technologies, improved understanding of environments and further analysis of design options. This paper presents an overview of the current MAV reference design used in NASA's human Mars mission studies, and includes a description of the operations, configuration, subsystem design, and a vehicle mass summary.

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Mission and design sensitivities for human Mars landers using Hypersonic Inflatable Aerodynamic Decelerators

Polsgrove

Thomas

Cianciolo

et al. 2017

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Landing humans on Mars is one of NASA's long term goals. The Evolvable Mars Campaign (EMC) is focused on evaluating architectural trade options to define the capabilities and elements needed for a sustainable human presence on the surface of Mars. The EMC study teams have considered a variety of in-space propulsion options and surface mission options. As we seek to better understand how these choices affect the performance of the lander, this work informs and influences requirements for transportation systems to deliver the landers to Mars and enable these missions. This paper presents the effects of mission and vehicle design options on lander mass and performance. Beginning with Earth launch, options include fairing size assumptions, co-manifesting other elements with the lander, and Earth-Moon vicinity operations. Capturing into Mars orbit using either aerocapture or propulsive capture is assessed. For entry, descent, and landing both storable as well as oxygen and methane propellant combinations are considered, engine thrust level is assessed, and sensitivity to landed payload mass is presented. This paper focuses on lander designs using the Hypersonic Inflatable Aerodynamic Decelerators (HIAD), one of several entry system technologies currently considered for human missions.

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A numerical study of a pulsed plasma thruster

Rhodes¹,

Reefer²,

Thomas³

2001

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A numerical simulation of axisymmetric, steady-state plasma flow through MPD-type thrusters with applied magnetic fields

Thomas¹,

Chapman²,

Garrison³

1992

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Herbert D. Thomas

Human Mars ascent vehicle configuration and performance sensitivities

Update to Mars Ascent Vehicle Design for Human Exploration

Mission and design sensitivities for human Mars landers using Hypersonic Inflatable Aerodynamic Decelerators

A numerical study of a pulsed plasma thruster

A numerical simulation of axisymmetric, steady-state plasma flow through MPD-type thrusters with applied magnetic fields

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