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High effectiveness liquid droplet/gas heat exchanger for space power applications (1983)

Bruckner, A. P. ; Mattick, A. T.

In: CASI

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Publication Date: 2019-06-28

Description: A high-effectiveness liquid droplet/gas heat exchanger (LDHX) concept for thermal management in space is described. Heat is transferred by direct contact between fine droplets (approx. 100 to 300 micron diameter) of a suitable low vapor pressure liquid and an inert working gas. Complete separation of the droplet and gas media in the zero-g environment is accomplished by configuring the LDHX as a vortex chamber. The large heat transfer area presented by the small droplets permits heat exchanger effectiveness of 0.9 to 0.95 in a compact, lightweight geometry which avoids many of the limitations of conventional plate and fin or tube and shell heat exchangers, such as their tendency toward single point failure. The application of the LDHX in a high temperature Bryaton cycle is discussed to illustrate the performance and operational characteristics of this heat exchanger concept.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-172235 , NAS 1.26:172235

Format: application/pdf

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High effectiveness liquid droplet/gas heat exchanger for space power applications (1983)

Mattick, A. T. ; Bruckner, A. P.

In: Other Sources

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Publication Date: 2019-06-28

Description: A high-effectiveness liquid droplet/gas heat exchanger (LDHX) concept for thermal management in space is described. Heat is transferred by direct contact between fine droplets (approximately 100-300 microns in diameter) of a suitable low vapor pressure liquid and an inert working gas. Complete separation of the droplet and gas media in the zero-g environment is accomplished by configuring the LDHX as a vortex chamber.The large heat transfer area presented by the small droplets permits heat exchanger effectiveness of 0.9-0.95 in a compact, lightweight geometry which avoids many of the limitations of conventional plate and fin or tube and shell heat exchangers, such as their tendency toward single point failure. The application of the LDHX in a high temperature Brayton cycle is discussed to illustrate the performance and operational characteristics of this new heat exchanger concept.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: IAF PAPER 83-433

Format: text

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Direct contact droplet heat exchangers for thermal management in space (1982)

Bruckner, A. P. ; Hertzberg, A.

In: Other Sources

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Publication Date: 2019-07-13

Description: A liquid droplet heat exchanger for space applications is described which transfers heat between a gas and a liquid metal dispersed into droplets. The ability of the droplet heat exchanger to transfer heat between two media in direct contact over a wide temperature range circumvents many of the material limitations of conventional tube-type heat exchangers and does away with complicated plumbing systems and their tendency toward single point failure. Droplet heat exchangers offer large surface to volume ratios in a compact geometry, very low gas pressure drop, and high effectiveness. The application of the droplet heat exchanger in a high temperature Brayton cycle is discussed to illustrate its performance and operational characteristics.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: IECEC ''82; Seventeenth Intersociety Energy Conversion Engineering Conference; Aug 08, 1982 - Aug 12, 1982; Los Angeles, CA

Format: text

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A new method of efficient heat transfer and storage at very high temperatures (1980)

Bruckner, A. P. ; Hertzberg, A. ; Shaw, D.

In: Other Sources

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Publication Date: 2019-07-13

Description: A unique, high temperature (1000-2000 K) continuously operating capacitive heat exchanger system is described. The system transfers heat from a combustion or solar furnace to a working gas by means of a circulating high temperature molten refractory. A uniform aggregate of beads of a glass-like refractory is injected into the furnace volume. The aggregate is melted and piped to a heat exchanger where it is sprayed through a counter-flowing, high pressure working gas. The refractory droplets transfer their heat to the gas, undergoing a phase change into the solid bead state. The resulting high temperature gas is used to drive a suitable high efficiency heat engine. The solidified refractory beads are delivered back to the furnace and melted to continue the cycle. This approach avoids the important temperature limitations of conventional tube-type heat exchangers, giving rise to the potential of converting heat energy into useful work at considerably higher efficiencies than currently attainable and of storing energy at high thermodynamic potential.

Keywords: ENERGY PRODUCTION AND CONVERSION

Type: Energy to the 21st century; Aug 18, 1980 - Aug 22, 1980; Seattle, WA

Format: text

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