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An experimental study of vapor bubbles dynamics at water and ethanol pool boiling at low and high heat fluxes. / Surtaev, Anton; Serdyukov, Vladimir; Zhou, Jingjing и др.

в: International Journal of Heat and Mass Transfer, Том 126, 01.11.2018, стр. 297-311.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Surtaev A, Serdyukov V, Zhou J, Pavlenko A, Tumanov V. An experimental study of vapor bubbles dynamics at water and ethanol pool boiling at low and high heat fluxes. International Journal of Heat and Mass Transfer. 2018 нояб. 1;126:297-311. doi: 10.1016/j.ijheatmasstransfer.2018.06.001

Author

Surtaev, Anton ; Serdyukov, Vladimir ; Zhou, Jingjing и др. / An experimental study of vapor bubbles dynamics at water and ethanol pool boiling at low and high heat fluxes. в: International Journal of Heat and Mass Transfer. 2018 ; Том 126. стр. 297-311.

BibTeX

@article{c267c6620d52476288dac073a7182e4c,
title = "An experimental study of vapor bubbles dynamics at water and ethanol pool boiling at low and high heat fluxes",
abstract = "In this paper the results of experimental study of vapor bubbles dynamics at pool boiling of various liquids in a wide range of heat fluxes up to q/qCHF ∼ 0.9 are presented. The experiments were performed at boiling of saturated water and ethanol at atmospheric pressure with the use of high-speed experimental techniques including video macro-visualization and IR thermography from the bottom side of a transparent heated sample. As a result, new data on the growth rate of vapor bubbles and dry spots in their base, evolution of the liquid microlayer region and unsteady temperature field of a thin film heater surface were obtained, and analysis of patterns of process at low heat fluxes was carried out. The usage of high-speed experimental techniques also allowed in this study to investigate the evolution of vapor bubbles with formation of vapor patterns and large agglomerates, to study dry spots dynamics, to estimate void fraction close to heating surface at fully developed nucleate boiling regime up to the critical heat flux depending on liquid properties. Obtained experimental information can be further used to construct more accurate physical models for the theoretical description of microcharacteristics, heat transfer and boiling trigger mechanisms at nucleate boiling of liquids with different physical properties.",
keywords = "Dry spots, Heat transfer, High speed visualization, IR thermography, Liquid microlayer, Pool boiling, Two-phase flows, VISUALIZATION, INFRARED THERMOMETRY, MICROLAYER, MECHANISMS, DEPARTURE, MODELS, GROWTH, SURFACE, CRISIS, NUCLEATION",
author = "Anton Surtaev and Vladimir Serdyukov and Jingjing Zhou and Aleksandr Pavlenko and Vladislav Tumanov",
year = "2018",
month = nov,
day = "1",
doi = "10.1016/j.ijheatmasstransfer.2018.06.001",
language = "English",
volume = "126",
pages = "297--311",
journal = "International Journal of Heat and Mass Transfer",
issn = "0017-9310",
publisher = "Elsevier Ltd",

}

RIS

TY - JOUR

T1 - An experimental study of vapor bubbles dynamics at water and ethanol pool boiling at low and high heat fluxes

AU - Surtaev, Anton

AU - Serdyukov, Vladimir

AU - Zhou, Jingjing

AU - Pavlenko, Aleksandr

AU - Tumanov, Vladislav

PY - 2018/11/1

Y1 - 2018/11/1

N2 - In this paper the results of experimental study of vapor bubbles dynamics at pool boiling of various liquids in a wide range of heat fluxes up to q/qCHF ∼ 0.9 are presented. The experiments were performed at boiling of saturated water and ethanol at atmospheric pressure with the use of high-speed experimental techniques including video macro-visualization and IR thermography from the bottom side of a transparent heated sample. As a result, new data on the growth rate of vapor bubbles and dry spots in their base, evolution of the liquid microlayer region and unsteady temperature field of a thin film heater surface were obtained, and analysis of patterns of process at low heat fluxes was carried out. The usage of high-speed experimental techniques also allowed in this study to investigate the evolution of vapor bubbles with formation of vapor patterns and large agglomerates, to study dry spots dynamics, to estimate void fraction close to heating surface at fully developed nucleate boiling regime up to the critical heat flux depending on liquid properties. Obtained experimental information can be further used to construct more accurate physical models for the theoretical description of microcharacteristics, heat transfer and boiling trigger mechanisms at nucleate boiling of liquids with different physical properties.

AB - In this paper the results of experimental study of vapor bubbles dynamics at pool boiling of various liquids in a wide range of heat fluxes up to q/qCHF ∼ 0.9 are presented. The experiments were performed at boiling of saturated water and ethanol at atmospheric pressure with the use of high-speed experimental techniques including video macro-visualization and IR thermography from the bottom side of a transparent heated sample. As a result, new data on the growth rate of vapor bubbles and dry spots in their base, evolution of the liquid microlayer region and unsteady temperature field of a thin film heater surface were obtained, and analysis of patterns of process at low heat fluxes was carried out. The usage of high-speed experimental techniques also allowed in this study to investigate the evolution of vapor bubbles with formation of vapor patterns and large agglomerates, to study dry spots dynamics, to estimate void fraction close to heating surface at fully developed nucleate boiling regime up to the critical heat flux depending on liquid properties. Obtained experimental information can be further used to construct more accurate physical models for the theoretical description of microcharacteristics, heat transfer and boiling trigger mechanisms at nucleate boiling of liquids with different physical properties.

KW - Dry spots

KW - Heat transfer

KW - High speed visualization

KW - IR thermography

KW - Liquid microlayer

KW - Pool boiling

KW - Two-phase flows

KW - VISUALIZATION

KW - INFRARED THERMOMETRY

KW - MICROLAYER

KW - MECHANISMS

KW - DEPARTURE

KW - MODELS

KW - GROWTH

KW - SURFACE

KW - CRISIS

KW - NUCLEATION

UR - http://www.scopus.com/inward/record.url?scp=85048224145&partnerID=8YFLogxK

U2 - 10.1016/j.ijheatmasstransfer.2018.06.001

DO - 10.1016/j.ijheatmasstransfer.2018.06.001

M3 - Article

AN - SCOPUS:85048224145

VL - 126

SP - 297

EP - 311

JO - International Journal of Heat and Mass Transfer

JF - International Journal of Heat and Mass Transfer

SN - 0017-9310

ER -

ID: 13846482