Modification of pool boiling regimes by sand deposition

Gedalia Mazor; Izhak Ladizhensky; Alexander Shapiro; Dimitry Nemirovsky

doi:10.1002/htj.21650

Modification of pool boiling regimes by sand deposition

Gedalia Mazor, Izhak Ladizhensky, Alexander Shapiro, Dimitry Nemirovsky

Research output: Contribution to journal › Article › peer-review

Abstract

Sand spots, attached to a copper ball surface by means of polyvinyl acetate adhesive and distributed over the surface with areal density that ranges between one spot per 1.18 cm² (for low-density spots) and one spot per 0.51 cm² (for high-density spots), serve as a temporary heat transfer enhancer during the quenching in liquid nitrogen. Highest heat flux densities, achieved during quenching, lie in the range 10.8 to 20.2 W/cm², depending on the sand layer structure. Application of the temporary enhancer increases an amount of heat, evacuated by highly effective nucleate and transition boiling, by factor of 4.5 as compared with the bare sample. The process of sand layer preparation, data acquisition peculiarities, relationship between heat exchange efficiency and the spots areal density, along with sand grit size are discussed in this paper.

Original language	English
Pages (from-to)	1000-1015
Number of pages	16
Journal	Heat Transfer
Volume	49
Issue number	2
DOIs	https://doi.org/10.1002/htj.21650
State	Published - 1 Mar 2020
Externally published	Yes

Keywords

heat transfer enhancement
nucleate boiling
temporary enhancer

ASJC Scopus subject areas

Condensed Matter Physics
Fluid Flow and Transfer Processes

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10.1002/htj.21650

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title = "Modification of pool boiling regimes by sand deposition",

abstract = "Sand spots, attached to a copper ball surface by means of polyvinyl acetate adhesive and distributed over the surface with areal density that ranges between one spot per 1.18 cm2 (for low-density spots) and one spot per 0.51 cm2 (for high-density spots), serve as a temporary heat transfer enhancer during the quenching in liquid nitrogen. Highest heat flux densities, achieved during quenching, lie in the range 10.8 to 20.2 W/cm2, depending on the sand layer structure. Application of the temporary enhancer increases an amount of heat, evacuated by highly effective nucleate and transition boiling, by factor of 4.5 as compared with the bare sample. The process of sand layer preparation, data acquisition peculiarities, relationship between heat exchange efficiency and the spots areal density, along with sand grit size are discussed in this paper.",

keywords = "heat transfer enhancement, nucleate boiling, temporary enhancer",

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T1 - Modification of pool boiling regimes by sand deposition

AU - Mazor, Gedalia

AU - Ladizhensky, Izhak

AU - Shapiro, Alexander

AU - Nemirovsky, Dimitry

PY - 2020/3/1

Y1 - 2020/3/1

N2 - Sand spots, attached to a copper ball surface by means of polyvinyl acetate adhesive and distributed over the surface with areal density that ranges between one spot per 1.18 cm2 (for low-density spots) and one spot per 0.51 cm2 (for high-density spots), serve as a temporary heat transfer enhancer during the quenching in liquid nitrogen. Highest heat flux densities, achieved during quenching, lie in the range 10.8 to 20.2 W/cm2, depending on the sand layer structure. Application of the temporary enhancer increases an amount of heat, evacuated by highly effective nucleate and transition boiling, by factor of 4.5 as compared with the bare sample. The process of sand layer preparation, data acquisition peculiarities, relationship between heat exchange efficiency and the spots areal density, along with sand grit size are discussed in this paper.

AB - Sand spots, attached to a copper ball surface by means of polyvinyl acetate adhesive and distributed over the surface with areal density that ranges between one spot per 1.18 cm2 (for low-density spots) and one spot per 0.51 cm2 (for high-density spots), serve as a temporary heat transfer enhancer during the quenching in liquid nitrogen. Highest heat flux densities, achieved during quenching, lie in the range 10.8 to 20.2 W/cm2, depending on the sand layer structure. Application of the temporary enhancer increases an amount of heat, evacuated by highly effective nucleate and transition boiling, by factor of 4.5 as compared with the bare sample. The process of sand layer preparation, data acquisition peculiarities, relationship between heat exchange efficiency and the spots areal density, along with sand grit size are discussed in this paper.

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Modification of pool boiling regimes by sand deposition

Abstract

Keywords

ASJC Scopus subject areas

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