 Computational analysis of subsonic jets from round and bevelled nozzlesM. Sandhya and P.S. Tide International Journal of Energy Technology and Policy, 2017, vol. 13, issue 1/2, 141-157 Abstract: Numerical simulations of turbulent compressible subsonic jets at Mach number 0.75 emanating from round and bevelled nozzles were carried out using a commercially available CFD code. The modelling and calculations were performed on a three-dimensional computational domain using RANS equations and SST k-ω turbulence model. The computational domain was discretised using hexahedral/tetrahedral mesh with approximately two million cells. The flow was investigated for axial and radial profiles of velocity components, shear layer thickness, self preserving nature, turbulent intensity, turbulent viscosity and Reynolds's stresses. The results were found to be in reasonable agreement with the available data in the literature. It was observed that the bevelling of nozzle can significantly change both flow pattern and turbulence structure and thus act as a passive method for jet noise reduction. Moreover, flow characteristics of jets issuing from various nozzle configurations intended to reduce noise levels may be easily evaluated using this computationally less expensive method. Keywords: subsonic jets; numerical simulation; bevelled nozzles; turbulence modelling; shear layer thickness; round nozzles; CFD; computational fluid dynamics; flow patterns; axial profile; radial profile; shear layer thickness; self preservation; turbulent intensity; turbulent viscosity; Reynolds's stresses; jet noise reduction. (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:ids:ijetpo:v:13:y:2017:i:1/2:p:141-157 Access Statistics for this article More articles in International Journal of Energy Technology and Policy from Inderscience Enterprises Ltd |
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