The Solution to the Task of Spreading the Non-Stationary Two-Dimensional Potential Flow (The Radial Source)

Burtseva Ol'ga; Kochanenko Viktor; Evtushenko Sergej; Kondratenko Anatoly

doi:doi:10.29039/2308-0191-2020-8-2-21-25

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The Solution to the Task of Spreading the Non-Stationary Two-Dimensional Potential Flow (The Radial Source)

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THE SOLUTION TO THE TASK OF SPREADING THE NON-STATIONARY TWO-DIMENSIONAL POTENTIAL FLOW (THE RADIAL SOURCE)

Journal: CONSTRUCTION AND ARCHITECTURE Volume 8 № 2 , 2020

Rubrics: 05.23.07 HYDROTECHNICAL CONSTRUCTION

UDK 53 Физика

Burtseva Ol'ga ¹

Kochanenko Viktor ²

Evtushenko Sergej ³

Kondratenko Anatoly ⁴

Author and publication information

Authors:

1. Platov South-Russian State Polytechnic University (NPI) (General engineering disciplines, docent)
employee

Novocherkassk, Rostov-on-Don, Russian Federation

2. Platov South-Russian State Polytechnic University (Department of General engineering disciplines, professor)

Novocherkassk, Rostov-on-Don, Russian Federation

3. Moscow State University of Civil Engineering (Department of «Information systems, technologies and construction automation", professor)
from 01.01.2019 until now
Platov South-Russian State Polytechnic University (NPI) (Obscheinzhenernye discipliny, professor)
from 01.01.1980 to 01.01.2019
Moskva, Moscow, Russian Federation

4. Russian State Agrarian University - Moscow Timiryazev Agricultural Academy (Department of " Engineering structures», Ph.D.)
employee

Novocherkassk, Rostov-on-Don, Russian Federation

Type:

Article

DOI:

https://doi.org/10.29039/2308-0191-2020-8-2-21-25

Pages:

from 21 to 25

Status:

Published

Received:

29.08.2020

Accepted:

07.10.2020

Published:

07.10.2020

Subject area:

UDK 53 Физика

Language:

Russian

Keywords:

mathematical model, two-dimensional radial source, unsteady radial flow, free flow spreading, equations of motion, diverting channel, flow continuity condition

Abstract and keywords

Abstract (English):
The equations of motion of a non-stationary radial flow are derived, the boundary value problem is set, and its analytical solution is obtained. The solution of the problem in this paper is in good agreement with the experimental parameters obtained at the experimental setup for small perturbations. The equations for determining the height of the wave front that decreases downstream of the flow are obtained, and the instantaneous velocity of the wave front tends to zero.

Keywords:
mathematical model, two-dimensional radial source, unsteady radial flow, free flow spreading, equations of motion, diverting channel, flow continuity condition

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References

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