Influence of nozzle geometry on torch parameters during gas combustion
In this paper, when performing and analyzing the series of calculated results of the analysis of the sides of a rectangular nozzle for the parameters of a turbulent free air jet and a flame of a propane-butane mixture based on three-dimensional parabolic Navier-Stokes bonds for multicomponent reacti...
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Format: | Article |
Language: | English |
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EDP Sciences
2023-01-01
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Series: | E3S Web of Conferences |
Online Access: | https://www.e3s-conferences.org/articles/e3sconf/pdf/2023/38/e3sconf_conmechydro23_01061.pdf |
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author | Khodjiev S. Pirimov A. Avezov A. X. |
author_facet | Khodjiev S. Pirimov A. Avezov A. X. |
author_sort | Khodjiev S. |
collection | DOAJ |
description | In this paper, when performing and analyzing the series of calculated results of the analysis of the sides of a rectangular nozzle for the parameters of a turbulent free air jet and a flame of a propane-butane mixture based on three-dimensional parabolic Navier-Stokes bonds for multicomponent reacting jets. To estimate the turbulent viscosity, differential equations of the kinetic and dissipation of the kinetic energy of turbulence are observed with refined empirical constants that are acceptable in turbulent combustion, as in the calculations, the initial values of the kinetic energy of turbulence did not exceed 5% of the dimensionless velocity of the main jet. It was found that when an air jet flows out of a nozzle with an aspect ratio of (1:2) and (1:4) in the initial sections of the jet, its shape behaves like an ellipse and, with the distance, it turns into a round one, with dimensionless, x greater or equal to 20 for the nozzle (1:2) and x greater or equal to 30 for (1:4), and for this variant there is again a transition to an elliptical shape. Studies of the diffusion combustion of a propane-butane mixture flowing out of a rectangular nozzle with an aspect ratio of (1:2) and (1:4) showed that with the ratio of the speed of the oxidizer to fuel mu, the flame length increases when mu between 0 and 0.164, and then, with an increase of mu more than 0.41, the torch length is shortened. The axial distributions of the momentum flux density with the aspect ratio (1:4), the jet core is shortened by 2÷2.5 times, compared with the aspect ratio (1:2) with the other parameters unchanged. Setting the tangential velocity at the mouth of the nozzle (ω=6.1 m/s) leads to a decrease in the torch length by 11% compared to its value equal to zero. |
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institution | Directory Open Access Journal |
issn | 2267-1242 |
language | English |
last_indexed | 2024-03-12T22:42:41Z |
publishDate | 2023-01-01 |
publisher | EDP Sciences |
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series | E3S Web of Conferences |
spelling | doaj.art-d74ae56417f84180b89578f43a84b0632023-07-21T09:33:47ZengEDP SciencesE3S Web of Conferences2267-12422023-01-014010106110.1051/e3sconf/202340101061e3sconf_conmechydro23_01061Influence of nozzle geometry on torch parameters during gas combustionKhodjiev S.0Pirimov A.1Avezov A. X.2Bukhara State universityNavoi State Mining and Innovations UniversityBukhara State universityIn this paper, when performing and analyzing the series of calculated results of the analysis of the sides of a rectangular nozzle for the parameters of a turbulent free air jet and a flame of a propane-butane mixture based on three-dimensional parabolic Navier-Stokes bonds for multicomponent reacting jets. To estimate the turbulent viscosity, differential equations of the kinetic and dissipation of the kinetic energy of turbulence are observed with refined empirical constants that are acceptable in turbulent combustion, as in the calculations, the initial values of the kinetic energy of turbulence did not exceed 5% of the dimensionless velocity of the main jet. It was found that when an air jet flows out of a nozzle with an aspect ratio of (1:2) and (1:4) in the initial sections of the jet, its shape behaves like an ellipse and, with the distance, it turns into a round one, with dimensionless, x greater or equal to 20 for the nozzle (1:2) and x greater or equal to 30 for (1:4), and for this variant there is again a transition to an elliptical shape. Studies of the diffusion combustion of a propane-butane mixture flowing out of a rectangular nozzle with an aspect ratio of (1:2) and (1:4) showed that with the ratio of the speed of the oxidizer to fuel mu, the flame length increases when mu between 0 and 0.164, and then, with an increase of mu more than 0.41, the torch length is shortened. The axial distributions of the momentum flux density with the aspect ratio (1:4), the jet core is shortened by 2÷2.5 times, compared with the aspect ratio (1:2) with the other parameters unchanged. Setting the tangential velocity at the mouth of the nozzle (ω=6.1 m/s) leads to a decrease in the torch length by 11% compared to its value equal to zero.https://www.e3s-conferences.org/articles/e3sconf/pdf/2023/38/e3sconf_conmechydro23_01061.pdf |
spellingShingle | Khodjiev S. Pirimov A. Avezov A. X. Influence of nozzle geometry on torch parameters during gas combustion E3S Web of Conferences |
title | Influence of nozzle geometry on torch parameters during gas combustion |
title_full | Influence of nozzle geometry on torch parameters during gas combustion |
title_fullStr | Influence of nozzle geometry on torch parameters during gas combustion |
title_full_unstemmed | Influence of nozzle geometry on torch parameters during gas combustion |
title_short | Influence of nozzle geometry on torch parameters during gas combustion |
title_sort | influence of nozzle geometry on torch parameters during gas combustion |
url | https://www.e3s-conferences.org/articles/e3sconf/pdf/2023/38/e3sconf_conmechydro23_01061.pdf |
work_keys_str_mv | AT khodjievs influenceofnozzlegeometryontorchparametersduringgascombustion AT pirimova influenceofnozzlegeometryontorchparametersduringgascombustion AT avezovax influenceofnozzlegeometryontorchparametersduringgascombustion |