국내 최대 기계 및 로봇 연구정보

기술보고서

기술보고서 게시판 내용
타이틀	Lunar Prospecting Using Thermal Wadis and Compact Rovers Part A;; Infrastructure for Surviving the Lunar Night
저자	Sacksteder, Kurt R.;; Wegeng, Robert S.;; Suzuki, Nantel H.
Keyword	ELECTRIC POWER TRANSMISSION;; LUNAR ENVIRONMENT;; LUNAR RESOURCES;; LUNAR ROVING VEHICLES;; LUNAR SURFACE;; NEAR EARTH OBJECTS;; NIGHT SKY;; PRODUCTIVITY;; REGOLITH;; REMOTE SENSING;; SOLAR HEATING;; SURFACE TEMPERATURE;; THERMAL ENERGY;; WADIS
URL	http://hdl.handle.net/2060/20120008795
보고서번호	NASA/TM-2012-217426
발행년도	2012
출처	NTRS (NASA Technical Report Server)
ABSTRACT	Recent missions have confirmed the existence of water and other volatiles on the Moon, both in permanently-shadowed craters and elsewhere. Non-volatile lunar resources may represent significant additional value as infrastructure or manufacturing feedstock. Characterization of lunar resources in terms of abundance concentrations, distribution, and recoverability is limited to in-situ Apollo samples and the expanding remote-sensing database. This paper introduces an approach to lunar resource prospecting supported by a simple lunar surface infrastructure based on the Thermal Wadi concept of thermal energy storage and using compact rovers equipped with appropriate prospecting sensors and demonstration resource extraction capabilities. Thermal Wadis are engineered sources of heat and power based on the storage and retrieval of solar-thermal energy in modified lunar regolith. Because Thermal Wadis keep compact prospecting rovers warm during periods of lunar darkness, the rovers are able to survive months to years on the lunar surface rather than just weeks without being required to carry the burdensome capability to do so. The resulting lower-cost, long-lived rovers represent a potential paradigm breakthrough in extra-terrestrial prospecting productivity and will enable the production of detailed resource maps. Integrating resource processing and other technology demonstrations that are based on the content of the resource maps will inform engineering economic studies that can define the true resource potential of the Moon. Once this resource potential is understood quantitatively, humans might return to the Moon with an economically sound objective including where to go, what to do upon arrival, and what to bring along.