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Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe. / Kashinsky, O. N.; Kurdyumov, A. S.; Gorelikova, A. E.

In: Journal of Engineering Thermophysics, Vol. 33, No. 3, 18.09.2024, p. 507-515.

Research output: Contribution to journalArticlepeer-review

Harvard

Kashinsky, ON, Kurdyumov, AS & Gorelikova, AE 2024, 'Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe', Journal of Engineering Thermophysics, vol. 33, no. 3, pp. 507-515. https://doi.org/10.1134/S1810232824030068

APA

Kashinsky, O. N., Kurdyumov, A. S., & Gorelikova, A. E. (2024). Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe. Journal of Engineering Thermophysics, 33(3), 507-515. https://doi.org/10.1134/S1810232824030068

Vancouver

Kashinsky ON, Kurdyumov AS, Gorelikova AE. Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe. Journal of Engineering Thermophysics. 2024 Sept 18;33(3):507-515. doi: 10.1134/S1810232824030068

Author

Kashinsky, O. N. ; Kurdyumov, A. S. ; Gorelikova, A. E. / Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe. In: Journal of Engineering Thermophysics. 2024 ; Vol. 33, No. 3. pp. 507-515.

BibTeX

@article{c430b87a2e9a472aafdf84f1eb38d59f,
title = "Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe",
abstract = "An experimental study of gas liquid flow in an inclined circular pipe was performed. Experiments were performed for two values of superficial liquid velocities and different gas flow rates. The angle of pipe inclination varies from 10° to 80° with respect to horizontal position. Wall shear stress was measured in the apex point of the pipe using an electrodiffusional technique. A strong effect of pipe inclination on wall shear stress was shown. The highest values of wall shear stress corresponded to the angles of 40° to 60°. A significant increase of wall shear stress at low gas flow rates was detected.",
author = "Kashinsky, {O. N.} and Kurdyumov, {A. S.} and Gorelikova, {A. E.}",
year = "2024",
month = sep,
day = "18",
doi = "10.1134/S1810232824030068",
language = "English",
volume = "33",
pages = "507--515",
journal = "Journal of Engineering Thermophysics",
issn = "1810-2328",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "3",

}

RIS

TY - JOUR

T1 - Effect of Inclination Angle on Wall Shear Stress in Upward Two-Phase Flow in a Pipe

AU - Kashinsky, O. N.

AU - Kurdyumov, A. S.

AU - Gorelikova, A. E.

PY - 2024/9/18

Y1 - 2024/9/18

N2 - An experimental study of gas liquid flow in an inclined circular pipe was performed. Experiments were performed for two values of superficial liquid velocities and different gas flow rates. The angle of pipe inclination varies from 10° to 80° with respect to horizontal position. Wall shear stress was measured in the apex point of the pipe using an electrodiffusional technique. A strong effect of pipe inclination on wall shear stress was shown. The highest values of wall shear stress corresponded to the angles of 40° to 60°. A significant increase of wall shear stress at low gas flow rates was detected.

AB - An experimental study of gas liquid flow in an inclined circular pipe was performed. Experiments were performed for two values of superficial liquid velocities and different gas flow rates. The angle of pipe inclination varies from 10° to 80° with respect to horizontal position. Wall shear stress was measured in the apex point of the pipe using an electrodiffusional technique. A strong effect of pipe inclination on wall shear stress was shown. The highest values of wall shear stress corresponded to the angles of 40° to 60°. A significant increase of wall shear stress at low gas flow rates was detected.

UR - https://www.mendeley.com/catalogue/9f7f47a2-fb6f-34b3-9345-bd709dc6129f/

U2 - 10.1134/S1810232824030068

DO - 10.1134/S1810232824030068

M3 - Article

VL - 33

SP - 507

EP - 515

JO - Journal of Engineering Thermophysics

JF - Journal of Engineering Thermophysics

SN - 1810-2328

IS - 3

ER -

ID: 60798000