Research on the characters of boiling heat transfer from high temperature sphere to water

Zheng Xiang Shen; Jin Zhu Li; Zhong Jie Lü; Feng Lei Huang

Research on the characters of boiling heat transfer from high temperature sphere to water

Zheng Xiang Shen, Jin Zhu Li^*, Zhong Jie Lü, Feng Lei Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

With the purpose of investigating the characteristics of heat transfer between high temperature liquid and water, the film boiling process from hot sphere surface was analyzed by an improved boiling model and free surface tracking method. The results show that, when the temperature of sphere is constant, the film thickness increases from stagnation point of particle, the temperature contribution decreases with non-linear posture and the velocity contribution is parabolic in film. With the increase of initial temperature of sphere, both the film thickness and peak value of vapor velocity raise, while the overall heat transfer coefficient decreases. Meanwhile, the numerical technique captures the evolution of instability at interface and the process of bubble growing, which reveal the dynamic process of boiling clearly.

Original language	English
Pages (from-to)	445-449
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	33
Issue number	5
Publication status	Published - May 2013

Keywords

Film boiling
Instability
Thermal radiation
Vapor film

Cite this

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title = "Research on the characters of boiling heat transfer from high temperature sphere to water",

abstract = "With the purpose of investigating the characteristics of heat transfer between high temperature liquid and water, the film boiling process from hot sphere surface was analyzed by an improved boiling model and free surface tracking method. The results show that, when the temperature of sphere is constant, the film thickness increases from stagnation point of particle, the temperature contribution decreases with non-linear posture and the velocity contribution is parabolic in film. With the increase of initial temperature of sphere, both the film thickness and peak value of vapor velocity raise, while the overall heat transfer coefficient decreases. Meanwhile, the numerical technique captures the evolution of instability at interface and the process of bubble growing, which reveal the dynamic process of boiling clearly.",

keywords = "Film boiling, Instability, Thermal radiation, Vapor film",

author = "Shen, {Zheng Xiang} and Li, {Jin Zhu} and L{\"u}, {Zhong Jie} and Huang, {Feng Lei}",

year = "2013",

month = may,

language = "English",

volume = "33",

pages = "445--449",

journal = "Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology",

issn = "1001-0645",

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T1 - Research on the characters of boiling heat transfer from high temperature sphere to water

AU - Shen, Zheng Xiang

AU - Li, Jin Zhu

AU - Lü, Zhong Jie

AU - Huang, Feng Lei

PY - 2013/5

Y1 - 2013/5

N2 - With the purpose of investigating the characteristics of heat transfer between high temperature liquid and water, the film boiling process from hot sphere surface was analyzed by an improved boiling model and free surface tracking method. The results show that, when the temperature of sphere is constant, the film thickness increases from stagnation point of particle, the temperature contribution decreases with non-linear posture and the velocity contribution is parabolic in film. With the increase of initial temperature of sphere, both the film thickness and peak value of vapor velocity raise, while the overall heat transfer coefficient decreases. Meanwhile, the numerical technique captures the evolution of instability at interface and the process of bubble growing, which reveal the dynamic process of boiling clearly.

AB - With the purpose of investigating the characteristics of heat transfer between high temperature liquid and water, the film boiling process from hot sphere surface was analyzed by an improved boiling model and free surface tracking method. The results show that, when the temperature of sphere is constant, the film thickness increases from stagnation point of particle, the temperature contribution decreases with non-linear posture and the velocity contribution is parabolic in film. With the increase of initial temperature of sphere, both the film thickness and peak value of vapor velocity raise, while the overall heat transfer coefficient decreases. Meanwhile, the numerical technique captures the evolution of instability at interface and the process of bubble growing, which reveal the dynamic process of boiling clearly.

KW - Film boiling

KW - Instability

KW - Thermal radiation

KW - Vapor film

UR - http://www.scopus.com/inward/record.url?scp=84880982317&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:84880982317

SN - 1001-0645

VL - 33

SP - 445

EP - 449

JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 5

ER -

Research on the characters of boiling heat transfer from high temperature sphere to water

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Keywords

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