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Geotechnical engineering on the moon (1976)

Mitchell, James K. ; Carrier, W. David, III

In: CASI

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Publication Date: 2016-06-07

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Lunar Science Inst., Abstracts of Papers Presented at a Special Session of the Seventh Annual Lunar Science Conference on Utilization of Lunar Materials and Expertise for Large Scale Operations in Space; p 92-95

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Overview

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Oxygen production processes on the Moon: An overview (1991)

Carrier, W. David, III ; Taylor, Lawrence A.

In: Other Sources

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Publication Date: 2019-01-25

Description: The production of oxygen on the Moon utilizing indigenous material is paramount to a successful lunar colonization. Several processes were put forth to accomplish this. The lunar liquid oxygen (LLOX) generation schemes which have received the most study to date are those involving: (1) the reduction of ilmenite (FeTiO3) by H2, C, CO, CH4, CO-Cl2 plasma; (2) magma electrolysis, both unadulterated and fluoride-fluxed, and (3) several others, including carbo-chlorination, HF acid leaching, fluorine extraction, magma oxidation, and vapor pyrolysis. The H2 reduction of ilmenite and magma electrolysis processes have received the most study to date. At this stage of development, they both appear feasible schemes with various pros and cons. However, all processes should be addressed at least at the onset of the considerations. It is ultimatley the energy requirements of the entire process, including the acquisition of feedstock, which will determine the mode of oxygen productions. There is an obvious need for considerably more experimentation and study. Some of these requisite studies are in progress, and several of the most studied and feasible processes for winning oxygen from lunar materials are reviewed.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Arizona Univ., Resources of Near-Earth Space: Abstracts; p 12

Format: text

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3

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Lunar Simulants: JSC-1 is Gone; The Need for New Standardized Root Simulants (2004)

Taylor, Lawrence A. ; Carrier, W. David, III ; Carter, James L. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: A workshop was held in 1991 to evaluate the status of simulated lunar regolith material and to make recommendations on future requirements and production of such material. As an outgrowth of that workshop, a group centered at Johnson Space Center (JSC) teamed with James Carter of the University of Texas at Dallas and Walter Boles of Texas A&M University to produce and distribute a new standardized lunar regolith simulant termed JSC-1. Carter supervised the field collection, shipping, processing, and initial packaging and transportation of JSC-1. Boles stored and distributed JSC-1. About 25 tons were created and distributed to the lunar science and engineer community; none is left for distribution. JSC-1 served an important role in concepts and designs for lunar base and lunar materials processing. Its chemical and physical properties were described by McKay et al., with its geotechnical properties described by Klosky et al.. While other lunar regolith simulants were produced before JSC-1, they were not standardized, and results from tests performed on them were not necessarily equivalent to test results performed on JSC-1. JSC-1 was designed to be chemically, mineralogically, and texturally similar to a mature lunar mare regolith (low titanium). The glass-rich character of JSC-1 (approx. 50%) produced quite different properties compared to other simulants that were made entirely of comminuted crystalline rock, but properties similar to lunar mare near surface regolith.

Keywords: Lunar and Planetary Science and Exploration

Type: Space Resources Roundtable VI; 15; LPI-Contrib-1224

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4

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The Nature of Lunar Soil: Considerations for Simulants (2004)

Carrier, W. David, III ; Taylor, Lawrence A. ; Carter, James L. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: It is obvious that many factors must be considered in making lunar simulants for various ISRU projects. This subject is of major importance (also, see abstract by Carter et al., this meeting) as we move into the near-future endeavors associated with a return to the Moon. Herein, we address the detailed geologic specifics of lunar soil and list many of the geotechnical properties that should be considered before we produce simulants for definitive study purposes.

Keywords: Lunar and Planetary Science and Exploration

Type: Space Resources Roundtable VI Program and Abstracts; 46; LPI-Contrib-1224

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