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Scaffolding student engagement via online peer learning (2014)

Casey, M M ; Bates, S P ; Galloway, K W ; [et al.]

Institute of Physics

In: European Journal of Physics. 2014; 35(4): 045002. Published 2014 Apr 14. doi: 10.1088/0143-0807/35/4/045002.

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Publication Date: 2014-04-14

Print ISSN: 0143-0807

Electronic ISSN: 1361-6404

Topics: Physics

Published by Institute of Physics

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Liquid droplet radiator program at the NASA Lewis Research Center (1986)

White, K. A., III ; Diem-Kirsop, P. S. ; Coles, C. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The NASA Lewis Research Center and the Air Force Rocket Propulsion Laboratory (AFRPL) are jointly engaged in a program for technical assessment of the Liquid Droplet Radiator (LDR) concept as an advanced high performance heat ejection component for future space missions. NASA Lewis has responsibility for the technology needed for the droplet generator, for working fluid qualification, and for investigating the physics of droplets in space; NASA Lewis is also conducting systems/mission analyses for potential LDR applications with candidate space power systems. For the droplet generator technology task, both micro-orifice fabrication techniques and droplet stream formation processes have been experimentally investigated. High quality micro-orifices (to 50 micron diameter) are routinely fabricated with automated equipment. Droplet formation studies have established operating boundaries for the generation of controlled and uniform droplet streams. A test rig is currently being installed for the experimental verification, under simulated space conditions, of droplet radiation heat transfer performance analyses and the determination of the effect radiative emissivity of multiple droplet streams. Initial testing has begun in the NASA Lewis Zero-Gravity Facility for investigating droplet stream behavior in microgravity conditions. This includes the effect of orifice wetting on jet dynamics and droplet formation. Results for both Brayton and Stirling power cycles have identified favorable mass and size comparisons of the LDR with conventional radiator concepts.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: ASME PAPER 86-HT-15

Format: text

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Liquid droplet radiator thermal characteristics (1986)

Edgerton, R. H. ; Diem-Kirsop, P. S.

In: Other Sources

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Publication Date: 2019-06-28

Description: The effects of droplet size, emissivity, and spacing on the liquid droplet radiator (LDR) performance space heat rejection system are investigated. The procedures for predicting surface emissivity of semitransparent droplets as a function of absorptivity and radius are examined. The relation between absorptivity, reflectivity, transmissivity, and emissivity is studied. It is observed that for droplets in the 25-200 micron range the radius affects emissivity. The thermal performance of an array of droplet streams is described using a thermal radiation model. Droplet temperatures are calculated; it is shown that outside droplet streams are more effective than interior droplets for arrays in the range of radius to spacing ratio from 0.05-0.2. Temperature distributions as a function of droplet size, emissivity, and velocity are presented. The heat transfer performance of a LDR is evaluated in terms of fin effectiveness. The equivalent sheet emissivities of droplet streams are examined.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 86-1162

Format: text

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Liquid droplet radiator program at the NASA Lewis Research Center (1985)

White, K. A., III ; Presler, A. F. ; Coles, C. E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The NASA Lewis Research Center and the Air Force Rocket Propulsion Laboratory (AFRPL) are jointly engaged in a program for technical assessment of the Liquid Droplet Radiator (LDR) concept as an advanced high performance heat ejection component for future space missions. NASA Lewis has responsibility for the technology needed for the droplet generator, for working fluid qualification, and for investigating the physics of droplets in space; NASA Lewis is also conducting systems/mission analyses for potential LDR applications with candidate space power systems. For the droplet generator technology task, both micro-orifice fabrication techniques and droplet stream formation processes have been experimentally investigated. High quality micro-orifices (to 50 micron diameter) are routinely fabricated with automated equipment. Droplet formation studies have established operating boundaries for the generation of controlled and uniform droplet streams. A test rig is currently being installed for the experimental verification, under simulated space conditions, of droplet radiation heat transfer performance analyses and the determination of the effect radiative emissivity of multiple droplet streams. Initial testing has begun in the NASA Lewis Zero-Gravity Facility for investigating droplet stream behavior in microgravity conditions. This includes the effect of orifice wetting on jet dynamics and droplet formation. Results for both Brayton and Stirling power cycles have identified favorable mass and size comparisons of the LDR with conventional radiator concepts.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TM-87139 , E-2745 , NAS 1.15:87139 , Thermophys. and Heat Transfer Conf.; Jun 02, 1986 - Jun 04, 1986; Boston, MA; United States

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Advanced radiator concepts (1985)

Diem-Kirsop, P. S.

In: CASI

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Publication Date: 2019-07-13

Description: The liquid droplet radiator and the liquid belt radiator currently under study by the NASA LeRC are discussed. These advanced concepts offer benefits in reduced mass, compact stowage, and ease of deployment. Operation and components of the radiators are described, heat transfer characteristics are discussed, and critical technologies are identified. The impact of the radiators on large power systems is also assessed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TM-87008 , E-2552 , NAS 1.15:87008 , Soc. of Women Engr. Natl. Convention; Jun 27, 1985 - Jun 30, 1985; Minneapolis, MN; United States

Format: application/pdf

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