Mathematical Model of a Constructal Coanda Effect Nozzle

M. Trancossi; J. Stewart; M. Subhash; D. Angeli

doi:10.29252/jafm.09.06.23508

Mathematical Model of a Constructal Coanda Effect Nozzle

M. Trancossi^*, J. Stewart, M. Subhash, D. Angeli

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This paper analyses the ACHEON Coanda effect nozzle for aircraft propulsion, based on the dynamic equilibrium of two jet streams. The ACHEON concept, and, in particular, the HOMER nozzle, which is its main component, are presented, together with the literature milestones from which the idea originally stems. A sub-system analysis inspired by the principles of Constructal Theory is presented for the current architecture. A mathematical model of a 2D case of the system is developed, focusing on the combined effect of the mixing of the two streams and the Coanda adhesion over a convex surface. A validation of the model is also reported, based on 2D CFD analyses, under the hypothesis of incompressible flow. Results highlight that, in spite of its relative simplicity, the model produces accurate results.

Original language	English
Pages (from-to)	2813-2822
Number of pages	10
Journal	Journal of Applied Fluid Mechanics
Volume	9
Issue number	6
DOIs	https://doi.org/10.29252/jafm.09.06.23508
Publication status	Published - Oct 2016
Externally published	Yes

Keywords

Coanda effect
Dual stream
Fluid dynamic adhesion
Constructal law
Mathematical model

Access to Document

10.29252/jafm.09.06.23508Licence: CC BY-NC-ND

Cite this

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title = "Mathematical Model of a Constructal Coanda Effect Nozzle",

abstract = "This paper analyses the ACHEON Coanda effect nozzle for aircraft propulsion, based on the dynamic equilibrium of two jet streams. The ACHEON concept, and, in particular, the HOMER nozzle, which is its main component, are presented, together with the literature milestones from which the idea originally stems. A sub-system analysis inspired by the principles of Constructal Theory is presented for the current architecture. A mathematical model of a 2D case of the system is developed, focusing on the combined effect of the mixing of the two streams and the Coanda adhesion over a convex surface. A validation of the model is also reported, based on 2D CFD analyses, under the hypothesis of incompressible flow. Results highlight that, in spite of its relative simplicity, the model produces accurate results.",

keywords = "Coanda effect, Dual stream, Fluid dynamic adhesion, Constructal law, Mathematical model",

author = "M. Trancossi and J. Stewart and M. Subhash and D. Angeli",

year = "2016",

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doi = "10.29252/jafm.09.06.23508",

language = "English",

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pages = "2813--2822",

journal = "Journal of Applied Fluid Mechanics",

issn = "1735-3572",

publisher = "Isfahan University of Technology",

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TY - JOUR

T1 - Mathematical Model of a Constructal Coanda Effect Nozzle

AU - Trancossi, M.

AU - Stewart, J.

AU - Subhash, M.

AU - Angeli, D.

PY - 2016/10

Y1 - 2016/10

N2 - This paper analyses the ACHEON Coanda effect nozzle for aircraft propulsion, based on the dynamic equilibrium of two jet streams. The ACHEON concept, and, in particular, the HOMER nozzle, which is its main component, are presented, together with the literature milestones from which the idea originally stems. A sub-system analysis inspired by the principles of Constructal Theory is presented for the current architecture. A mathematical model of a 2D case of the system is developed, focusing on the combined effect of the mixing of the two streams and the Coanda adhesion over a convex surface. A validation of the model is also reported, based on 2D CFD analyses, under the hypothesis of incompressible flow. Results highlight that, in spite of its relative simplicity, the model produces accurate results.

AB - This paper analyses the ACHEON Coanda effect nozzle for aircraft propulsion, based on the dynamic equilibrium of two jet streams. The ACHEON concept, and, in particular, the HOMER nozzle, which is its main component, are presented, together with the literature milestones from which the idea originally stems. A sub-system analysis inspired by the principles of Constructal Theory is presented for the current architecture. A mathematical model of a 2D case of the system is developed, focusing on the combined effect of the mixing of the two streams and the Coanda adhesion over a convex surface. A validation of the model is also reported, based on 2D CFD analyses, under the hypothesis of incompressible flow. Results highlight that, in spite of its relative simplicity, the model produces accurate results.

KW - Coanda effect

KW - Dual stream

KW - Fluid dynamic adhesion

KW - Constructal law

KW - Mathematical model

U2 - 10.29252/jafm.09.06.23508

DO - 10.29252/jafm.09.06.23508

M3 - Article

SN - 1735-3572

VL - 9

SP - 2813

EP - 2822

JO - Journal of Applied Fluid Mechanics

JF - Journal of Applied Fluid Mechanics

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