Numerical solution of three-dimensional rectangular submerged jets with the evidence of the undisturbed region of flow

Date

2016-09-20

Advisors

Journal Title

Journal ISSN

ISSN

1521-0634

Volume Title

Publisher

Taylor & Francis

Type

Article

Peer reviewed

Yes

Abstract

The evolution of turbulent rectangular submerged free jets has been investigated numerically with a two-dimensional (2D) approach by the present authors and, by using the large eddy simulations (LES) at several Reynolds numbers. The average numerical results confirmed the presence of the undisturbed region of flow (URF) located between the slot exit and the beginning of the potential core region (PCR) previously observed experimentally at the University of Rome “Tor Vergata” by Gori and coworkers. The 2D study of the present authors carried out under the conditions previously investigated in the literature, showed that the URF has a self-similar behavior, and proposed a new law for the evolution of the momentum. The present paper extends the LES to three-dimensional (3D) rectangular submerged free jets, in the range from Re =5,000 to Re =40,000, showing that the self-similar behavior of URF is also present in the 3D numerical simulations, as well as in the PCR and in the fully developed region (FDR).

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Citation

Angelino, M., Boghi, A., and Gori, F. (2016) Numerical solution of three-dimensional rectangular submerged jets with the evidence of the undisturbed region of flow. Numerical Heat Transfer, Part A: Applications, 70, pp. 815–830

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Research Institute