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Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant. / Kulagin, V. A.; Moskvichev, V. V.; Makhutov, N. A. и др.

в: Herald of the Russian Academy of Sciences, Том 86, № 6, 01.11.2016, стр. 454-465.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Kulagin, VA, Moskvichev, VV, Makhutov, NA, Markovich, DM & Shokin, YI 2016, 'Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant', Herald of the Russian Academy of Sciences, Том. 86, № 6, стр. 454-465. https://doi.org/10.1134/S1019331616060034

APA

Kulagin, V. A., Moskvichev, V. V., Makhutov, N. A., Markovich, D. M., & Shokin, Y. I. (2016). Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant. Herald of the Russian Academy of Sciences, 86(6), 454-465. https://doi.org/10.1134/S1019331616060034

Vancouver

Kulagin VA, Moskvichev VV, Makhutov NA, Markovich DM, Shokin YI. Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant. Herald of the Russian Academy of Sciences. 2016 нояб. 1;86(6):454-465. doi: 10.1134/S1019331616060034

Author

Kulagin, V. A. ; Moskvichev, V. V. ; Makhutov, N. A. и др. / Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant. в: Herald of the Russian Academy of Sciences. 2016 ; Том 86, № 6. стр. 454-465.

BibTeX

@article{0434abc636aa4dffa4de02a6539b49cf,
title = "Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant",
abstract = "Improvement of advanced technologies in the field of high-velocity hydrodynamics is strategically significant in terms of national security and stable and long-term growth of the economy due to regional development in Siberia and the Arctic, as well as support of Russia{\textquoteright}s scientific and technological authority in the global arena. The practice of creating and operating large gravitational hydrodynamic tunnels with small Euler numbers is generalized to study cavitation processes under natural conditions and the motion of bodies in fluids at high velocities. Some results of model and field studies conducted in laboratories of the dam of the Krasnoyarsk hydroelectric plant are described. The authors suggest directions for follow-up studies and justify the need to set up a high-velocity hydrodynamics research center part of the High-Pressure Hydraulic Laboratory at the Krasnoyarsk hydroelectric plant, which is a completely unique facility.",
keywords = "cavitation, experimental base, high-velocity hydrodynamics, hydro- and thermodynamic simulation, polyphase flows, supercavitation",
author = "Kulagin, {V. A.} and Moskvichev, {V. V.} and Makhutov, {N. A.} and Markovich, {D. M.} and Shokin, {Yu I.}",
year = "2016",
month = nov,
day = "1",
doi = "10.1134/S1019331616060034",
language = "English",
volume = "86",
pages = "454--465",
journal = "Herald of the Russian Academy of Sciences",
issn = "1019-3316",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "6",

}

RIS

TY - JOUR

T1 - Physical and mathematical modeling in the field of high-velocity hydrodynamics in the experimental base of the krasnoyarsk hydroelectric plant

AU - Kulagin, V. A.

AU - Moskvichev, V. V.

AU - Makhutov, N. A.

AU - Markovich, D. M.

AU - Shokin, Yu I.

PY - 2016/11/1

Y1 - 2016/11/1

N2 - Improvement of advanced technologies in the field of high-velocity hydrodynamics is strategically significant in terms of national security and stable and long-term growth of the economy due to regional development in Siberia and the Arctic, as well as support of Russia’s scientific and technological authority in the global arena. The practice of creating and operating large gravitational hydrodynamic tunnels with small Euler numbers is generalized to study cavitation processes under natural conditions and the motion of bodies in fluids at high velocities. Some results of model and field studies conducted in laboratories of the dam of the Krasnoyarsk hydroelectric plant are described. The authors suggest directions for follow-up studies and justify the need to set up a high-velocity hydrodynamics research center part of the High-Pressure Hydraulic Laboratory at the Krasnoyarsk hydroelectric plant, which is a completely unique facility.

AB - Improvement of advanced technologies in the field of high-velocity hydrodynamics is strategically significant in terms of national security and stable and long-term growth of the economy due to regional development in Siberia and the Arctic, as well as support of Russia’s scientific and technological authority in the global arena. The practice of creating and operating large gravitational hydrodynamic tunnels with small Euler numbers is generalized to study cavitation processes under natural conditions and the motion of bodies in fluids at high velocities. Some results of model and field studies conducted in laboratories of the dam of the Krasnoyarsk hydroelectric plant are described. The authors suggest directions for follow-up studies and justify the need to set up a high-velocity hydrodynamics research center part of the High-Pressure Hydraulic Laboratory at the Krasnoyarsk hydroelectric plant, which is a completely unique facility.

KW - cavitation

KW - experimental base

KW - high-velocity hydrodynamics

KW - hydro- and thermodynamic simulation

KW - polyphase flows

KW - supercavitation

UR - http://www.scopus.com/inward/record.url?scp=85008655933&partnerID=8YFLogxK

U2 - 10.1134/S1019331616060034

DO - 10.1134/S1019331616060034

M3 - Article

AN - SCOPUS:85008655933

VL - 86

SP - 454

EP - 465

JO - Herald of the Russian Academy of Sciences

JF - Herald of the Russian Academy of Sciences

SN - 1019-3316

IS - 6

ER -

ID: 25324467