The article presents the results of experimental aerodynamic research of the velocity field during flow-over of a pipe crossing weighted down by a flexible protective concrete pavement. The equipment used during the tests, as well as the methods for carrying out experimental model researches are described.
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References
Accidents on Pipelines. Accidents on Gas Pipelines. Latest News, Media Review [in Russian], https://tehnashop.ru/accidentson-pipelines-gas-pipeline-accidents.html (2018).
D. V. Shterenlikht, Interaction of the Incoming Flow and Pipelines at River Crossings. Doctoral Thesis [in Russian], Moskovskii Gidromeliorativnyi Institut, Moscow (1970).
R. K. Abdulaev, “About the velocity field distribution during the flow-over of an outer wall pipe,” Probl. Geolog. Osvoen. Nedr, 440 – 441 (2012).
V. V. Degtyarev and E. E. Ershova, “Numerical modeling of the flow velocity structure in the field of a cylinder simulating a pipeline laying at the bottom of a nondeformable channel,” Gidrotekh. Stroit., No. 4, 57 – 61 (2013).
J. K. Vandiver and T. Y. Chung, “Predicted and measured response of flexible cylinders in sheared flow,” in: Proc. of ASME Winter Annual Meeting Symposium on Flow-Induced Vibration, Chicago (1988), pp. 1 – 23.
I. A. Bryanskiy and V. S. Borovkov, “Hydraulic characteristics of turbulent flow during obstacles flow-over,” Gidrotekh. Stroit., No. 2, 37 – 41 (2020).
Automated Laboratory Facility for Research in the AeroLab Wind Tunnel [in Russian], https://mgsu.ru/customer/Oborudovaniye/Aerodinamika/Avtomatizirovannyy-laboratornyy-kompleks-dlya-issledovaniy-v-aerodinamicheskoy-trube-AeroLab.
Spetsprom 1. Protection of the Pipeline from Mechanical Damage in the Channel Section [in Russian], http://www.ugzbm.ru/?pageid=76.
E. K. Akhmetbekov, A. V. Bil’skiy, Yu. A. Lozhkin, et al., “System for test control and processing of data obtained by digital tracer visualization methods (ActualFlow),” Vychisl. Met. Progr., 7(3), 79 – 85 (2006).
M. P. Tokarev, D. M. Markovich, and A. V. Bil’skiy “Adaptive algorithms for PIV images processing,” Vychisl. Tekhnol., 12(3), 109 – 131 (2007).
R. J. Adrian, “Statistical properties of particle image velocimetry measurements in turbulent flow,” in: Proc. of Laser Anemometry in Fluid Mechanics III, Lisbon (1988), pp. 115 – 119.
J. M. Foucaut, J. Carlier, and M. Stanislas, “PIV optimization for the study of turbulent flow using spectral analysis,” Meas. Sci. Technol., 15(6), 1046 – 1058 (2004).
DaVis — Software Solution for Intelligent Imaging, https://www.lavision.de/en/products/davis-software/index.php.
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Translated from Gidrotekhnicheskoe Stroitel’svo, No. 11, November, 2020, pp. 39 – 42.
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Bryanskiy, I.A., Borovkov, V.S. Velocity Distribution Along the Flow Depth in the Pipe Crossing’s Area of Influence. Power Technol Eng 55, 26–29 (2021). https://doi.org/10.1007/s10749-021-01314-2
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DOI: https://doi.org/10.1007/s10749-021-01314-2