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Kinematics and dynamics of vortex rings in a tube (1979)

Brasseur, J. G.

In: CASI

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Publication Date: 2019-06-28

Description: Kinematic theory and flow visualization experiments were combined to examine the dynamic processes which control the evolution of vortex rings from very low to very high Reynolds numbers, and to assess the effects of the wall as a vortex ring travels up a tube. The kinematic relationships among the size, shape, speed, and strength of vortex rings in a tube were computed from the theory. Relatively simple flow visualization measurements were used to calculate the total circulation of a vortex rings at a given time. Using this method, the strength was computated and plotted as a function of time for experimentally produced vortex rings. Reynolds number relationships are established and quantitative differences among the three Reynolds number groups are discussed.

Keywords: AERODYNAMICS

Type: NASA-CR-166185 , SU-JIAA-TR-26

Format: application/pdf

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Combination of Kinematics with Flow Visualization to Compute Total Circulation (1981)

Chang, I-Dee ; Brasseur, J. G

In: CASI

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Publication Date: 2019-07-13

Description: A method is described in which kinematics is exploited to compute the total circulation of a vortex from relatively simple flow visualization experiments. There are several advantages in the technique, including the newly acquired ability to calculate the changes in strength of a single vortex as it evolves. The main concepts and methodology are discussed in a general way for application to vortices which carry along with them definable regions of essentially irrotational fluid; however, the approach might be generalized to other flows which contain regions of concentrated vorticity. As an illustrative example, an application to the study of the transient changes in total circulation of individual vortex rings as they travel up a tube is described, taking into account the effect of the tube boundary. The accuracy of the method, assessed in part by a direct comparison with a laser Doppler measurement is felt to be well within experimental precision for vortex rings over a wide range of Reynolds numbers.

Keywords: Fluid Mechanics and Heat Transfer

Type: AIAA Paper 80-1330R , AIAA Journal; 19; 7; 878-884|Fluid and Plasma Dynamics Conference; Jul 14, 1980 - Jul 16, 1980; Snowmass, CO; United States

Format: text

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On the combination of kinematics with flow visualization to compute total circulation - Application to vortex rings in a tube (1980)

Brasseur, J. G. ; Chang, I.-D.

In: Other Sources

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Publication Date: 2019-07-13

Description: To date the computation of the total circulation, or strength of a vortex has required detailed measurements of the velocity field within the vortex. In this paper a method is described in which the kinematics of the vortical flow field is exploited to calculate the strength of a vortex from relatively simple flow visualization measurements. There are several advantages in the technique, the most important being the newly acquired ability to calculate the transient changes in strength of a single vortex as it evolves. The method is applied to the study of vortex rings, although the development can be carried over directly to study vortex pairs, and it is expected that it can be generalized to other flows which contain regions of concentrated vorticity. The accuracy of the method as applied to vortex rings, assessed in part by comparing with the laser Doppler velocimeter (LDV) measurements of Sullivan et al., is shown to be excellent.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 80-1330 , Fluid and Plasma Dynamics Conference; Jul 14, 1980 - Jul 16, 1980; Snowmass, CO

Format: text

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