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Heat flow experiment (1972)

Wechsler, A. E. ; Langseth, M. G., Jr. ; Clark, S. P., Jr. ; [et al.]

In: CASI

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Publication Date: 2005-11-30

Description: The heat flow experiment installed on the lunar surface during the Apollo 15 flight is described. Subjects discussed are: (1) the experiment concept and design, (2) the operations of the experiment, (3) the employment of the experiment on the lunar surface at Hadley Rille site, (4) subsurface lunar temperatures, and (5) extrapolation of sensor temperatures to equilibrium values. Graphs of the data obtained from the experiment are provided.

Keywords: SPACE SCIENCES

Type: NASA. Manned Spacecraft Center Apollo 15 Prelim. Sci. Rept.; 23 p

Format: text

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Heat flow experiment (1973)

Langseth, M. G., Jr. ; Chute, J. L., Jr. ; Keihm, S. J.

In: CASI

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Publication Date: 2006-01-11

Description: The heat flow experiment conducted during the Apollo 17 flight in the Taurus-Littrow area of the moon is discussed. The concept of the experiment is based on the direct measurement of the vertical flow of heat through the regolith. The measurement is made far enough below the surface so that the time-varying heat flow resulting from the very large diurnal variations of the surface temperature is small as compared with the flow from the interior. The equipment used for the experiment is described and illustrated. Graphs are developed to present the results of heat flow and surface temperature measurements.

Keywords: SPACE SCIENCES

Type: NASA. Johnson Space Center Apollo 17 Prelim. Sci. Rept.; 24 p

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Apollo 15 measurement of lunar surface brightness temperatures - Thermal conductivity of the upper 1.5 meters of regolith. (1973)

Langseth, M. G. ; Chute, J. L., Jr. ; Peters, K. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: In situ measurements of lunar surface brightness temperatures made as a part of the Apollo Lunar Surface Experiments Package at the Apollo 15 Hadley Rille landing site are reported. Data derived from five thermocouples of the Heat Flow Experiment, which are lying on or just above the surface, are used to examine the thermal properties of the upper 15 cm of the lunar regolith using eclipse and nighttime cool-down temperatures. Application of finite-difference techniques in modeling the lunar soil shows that the thermocouple data are best fit by a model consisting of a low-density and low-thermal conductivity surface layer approximately 2 cm thick overlying a region increasing in conductivity and density with depth. Conductivities on the order of 0.00001 W per cm per deg K are postulated for the upper layer, with conductivity increasing to the order of 0.0001 W per cm per deg K at depths exceeding 20 cm. An increase in mean temperature with depth indicates that the ratio of radiative to conductive transfer at 350 K is 2.7 for at least the upper few centimeters of lunar soil; this value is nearly twice that measured for returned lunar fines.

Keywords: SPACE SCIENCES

Type: Earth and Planetary Science Letters; 19; 3, Ju; July 197

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