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Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed. / Vasanova, L. K.; Korotke, V. V.; Sokolov, A. V. и др.
в: Heat Transfer Research, Том 34, № 5-6, 01.01.2003, стр. 414 - 420.

Результаты исследований: Вклад в журналСтатьяРецензирование

Harvard

Vasanova, LK, Korotke, VV, Sokolov, AV, Yasnikov, GP & Belousov, VS 2003, 'Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed', Heat Transfer Research, Том. 34, № 5-6, стр. 414 - 420. https://doi.org/10.1615/HeatTransRes.v34.i5-6.140

APA

Vasanova, L. K., Korotke, V. V., Sokolov, A. V., Yasnikov, G. P., & Belousov, V. S. (2003). Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed. Heat Transfer Research, 34(5-6), 414 - 420. https://doi.org/10.1615/HeatTransRes.v34.i5-6.140

Vancouver

Vasanova LK, Korotke VV, Sokolov AV, Yasnikov GP, Belousov VS. Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed. Heat Transfer Research. 2003 янв. 1;34(5-6):414 - 420. doi: 10.1615/HeatTransRes.v34.i5-6.140

Author

Vasanova, L. K. ; Korotke, V. V. ; Sokolov, A. V. и др. / Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed. в: Heat Transfer Research. 2003 ; Том 34, № 5-6. стр. 414 - 420.

BibTeX

@article{6354e0c1750b41d0ae1d304371bcda6f,
title = "Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed",
abstract = "As a result of studies of heat transfer between horizontal in-line and staggered tubes and a gas-liquid flow, heat transfer of higher intensity was obtained as compared with a single-phase liquid flow. The presence of solid particles in a gas-liquid flow, i.e., formation of a three-phase fluidized bed, results in a greater intensity of pulses (liquid-phase velocity and pressure fluctuations) near the heat-transfer surface. These fluctuations cause an increase in the heat-transfer coefficient for smaller Reynolds numbers.",
author = "Vasanova, {L. K.} and Korotke, {V. V.} and Sokolov, {A. V.} and Yasnikov, {G. P.} and Belousov, {V. S.}",
year = "2003",
month = jan,
day = "1",
doi = "10.1615/HeatTransRes.v34.i5-6.140",
language = "English",
volume = "34",
pages = "414 -- 420",
journal = "Heat Transfer Research",
issn = "1064-2285",
publisher = "Begell House",
number = "5-6",

}

RIS

TY - JOUR

T1 - Characteristic Features of Heat Transfer of Tube Bundles in a Cross Water–Air Flow and a Three-Phase Fluidized Bed

AU - Vasanova, L. K.

AU - Korotke, V. V.

AU - Sokolov, A. V.

AU - Yasnikov, G. P.

AU - Belousov, V. S.

PY - 2003/1/1

Y1 - 2003/1/1

N2 - As a result of studies of heat transfer between horizontal in-line and staggered tubes and a gas-liquid flow, heat transfer of higher intensity was obtained as compared with a single-phase liquid flow. The presence of solid particles in a gas-liquid flow, i.e., formation of a three-phase fluidized bed, results in a greater intensity of pulses (liquid-phase velocity and pressure fluctuations) near the heat-transfer surface. These fluctuations cause an increase in the heat-transfer coefficient for smaller Reynolds numbers.

AB - As a result of studies of heat transfer between horizontal in-line and staggered tubes and a gas-liquid flow, heat transfer of higher intensity was obtained as compared with a single-phase liquid flow. The presence of solid particles in a gas-liquid flow, i.e., formation of a three-phase fluidized bed, results in a greater intensity of pulses (liquid-phase velocity and pressure fluctuations) near the heat-transfer surface. These fluctuations cause an increase in the heat-transfer coefficient for smaller Reynolds numbers.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=33751302621

U2 - 10.1615/HeatTransRes.v34.i5-6.140

DO - 10.1615/HeatTransRes.v34.i5-6.140

M3 - Article

VL - 34

SP - 414

EP - 420

JO - Heat Transfer Research

JF - Heat Transfer Research

SN - 1064-2285

IS - 5-6

ER -

ID: 44817771