Computation Fluid Dynamics of Aerodynamics Swirl Low NOx Burner in Furnace

( Vol-11,Issue-4,July - August 2025 )

Author(s): Asya Abd Alelah Alabdalah

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Page No: 240-248
DOI: 10.22161/ijaems.114.24

Keywords:

computation fluid dynamics, low NOx burner, flame stability, internal recirculation zones, Swirl burn

Abstract:

By using a prototype multi –annular swirl burner, the important aerodynamics features of a typical low Nitrogen Oxides NOx of internal staging schematic was studied. So by using swirl means the structure of flame is separated to locally fuel-rich environment prior to burn out. Selecting of the optimal swirl burner design is depending on swirl economy and can estimated using hydraulic resistance parameter. Swirl stabilized flames are lifted a few millimeters above the fuel injector and this liftoff allows air to mix with fuel upstream of the flame base , the positions of the primary and secondary air as well as fuel tube were adjusted to produce a particular flow field which Its name Radially Stratified Flame Core Burner. In result NOx emissions are not more than 120ppmv at 15% excess air and the implement internal staging schematic is effective and promise way to have high furnace efficiency at low NOx emissions.

Received: 25 Jun 2025; Received in revised form: 21 Jul 2025; Accepted: 26 Jul 2025; Available online: 01 Aug 2025

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