Nucleate boiling of low-concentration alcohol aqueous solutions for the development of thermal management systems in space

Haruhiko Ohta; Takashi Sakai; Shigenori Yamaguchi; Yoshihiko Ito; Yasuhisa Shinmoto; Yoshiyuki Abe

doi:10.1007/BF02915779

Nucleate boiling of low-concentration alcohol aqueous solutions for the development of thermal management systems in space

Haruhiko Ohta, Takashi Sakai, Shigenori Yamaguchi, Yoshihiko Ito, Yasuhisa Shinmoto, Yoshiyuki Abe

Space Systems Engineering

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

6 Citations (Scopus)

Abstract

To develop high-performance space thermal management systems using boiling phenomena, the heat transfer characteristics of low concentration alcohol aqueous solutions were investigated on ground. For mixtures of 1-Propanol/Water, 2-Propanol/Water and Water/1-Butanol, i.e. substantially positive mixtures at very low concentration range of alcohol, heat transfer enhancement was observed, while only heat transfer deterioration was reported in most of existing studies for nucleate boiling of mixtures. A concept of coexisting heat transfer enhancement due to Marangoni effect additionally to the heat transfer deterioration due to mass transfer resistance was emphasized. The concept seems to be true for mixture nucleate boiling independent of gravity level.

Original language	English
Pages (from-to)	141-143
Number of pages	3
Journal	Microgravity Science and Technology
Volume	19
Issue number	3-4
DOIs	https://doi.org/10.1007/BF02915779
Publication status	Published - 2007

All Science Journal Classification (ASJC) codes

Modelling and Simulation
Engineering(all)
Physics and Astronomy(all)
Applied Mathematics

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10.1007/BF02915779

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abstract = "To develop high-performance space thermal management systems using boiling phenomena, the heat transfer characteristics of low concentration alcohol aqueous solutions were investigated on ground. For mixtures of 1-Propanol/Water, 2-Propanol/Water and Water/1-Butanol, i.e. substantially positive mixtures at very low concentration range of alcohol, heat transfer enhancement was observed, while only heat transfer deterioration was reported in most of existing studies for nucleate boiling of mixtures. A concept of coexisting heat transfer enhancement due to Marangoni effect additionally to the heat transfer deterioration due to mass transfer resistance was emphasized. The concept seems to be true for mixture nucleate boiling independent of gravity level.",

author = "Haruhiko Ohta and Takashi Sakai and Shigenori Yamaguchi and Yoshihiko Ito and Yasuhisa Shinmoto and Yoshiyuki Abe",

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AU - Ohta, Haruhiko

AU - Sakai, Takashi

AU - Yamaguchi, Shigenori

AU - Ito, Yoshihiko

AU - Shinmoto, Yasuhisa

AU - Abe, Yoshiyuki

PY - 2007

Y1 - 2007

N2 - To develop high-performance space thermal management systems using boiling phenomena, the heat transfer characteristics of low concentration alcohol aqueous solutions were investigated on ground. For mixtures of 1-Propanol/Water, 2-Propanol/Water and Water/1-Butanol, i.e. substantially positive mixtures at very low concentration range of alcohol, heat transfer enhancement was observed, while only heat transfer deterioration was reported in most of existing studies for nucleate boiling of mixtures. A concept of coexisting heat transfer enhancement due to Marangoni effect additionally to the heat transfer deterioration due to mass transfer resistance was emphasized. The concept seems to be true for mixture nucleate boiling independent of gravity level.

AB - To develop high-performance space thermal management systems using boiling phenomena, the heat transfer characteristics of low concentration alcohol aqueous solutions were investigated on ground. For mixtures of 1-Propanol/Water, 2-Propanol/Water and Water/1-Butanol, i.e. substantially positive mixtures at very low concentration range of alcohol, heat transfer enhancement was observed, while only heat transfer deterioration was reported in most of existing studies for nucleate boiling of mixtures. A concept of coexisting heat transfer enhancement due to Marangoni effect additionally to the heat transfer deterioration due to mass transfer resistance was emphasized. The concept seems to be true for mixture nucleate boiling independent of gravity level.

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Nucleate boiling of low-concentration alcohol aqueous solutions for the development of thermal management systems in space

Abstract

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