@article{Sigal_Smikhula_Sigal_Marasin_2020, title={COMBUSTION RESEARCH OF IMPINGING GAS JETS AT STABILIZATION OF THE FLAME FRONT ON A VERTICAL SURFACE}, url={https://etars-journal.org/index.php/journal/article/view/263}, DOI={10.33070/etars.4.2020.03}, abstractNote={<p>The conditions of stabilization of combustion of detached gas jets on the vertical surface of the range of nozzle diameters d<sub>0 </sub>= 1.6–3.0 mm are investigated. The mechanism of flame stabilization of a detached gas jet on a vertical surface is shown, which allows to increase the gas flow rate through one nozzle by 3 or more times with stable combustion, compared to diffusion combustion of a free gas jet, which is not stabilized. The optimal distance to the vertical refractory surface in the nozzle calibers for the creation of slot bottom burner devices has been established. The necessity of using the minimum angles of attack till failure of combustion, which were experimentally founded, for the construction of slot bottom burner devices, is substantiated. It is experimentally established that starting from the gas pressure in the collector-pipe near 500 mmwg and, accordingly, the speed of its flow through the nozzle is more than near&nbsp;100 m/s at a distance to the vertical surface on which the flame is stabilized 15 &lt; L/d<sub>0 </sub>&lt;= 30, for the range of nozzle diameters d<sub>0 </sub>= 1.6–3.0 mm, dimensionless area base s<sub>g</sub>/s<sub>0</sub> of the elliptical cylinder E<sub>b</sub>, less than 2–2.5 times of the maximum observed at a distance L/d<sub>0 </sub>near 40. <em>Bibl.</em><em> 15, Fig. 6.</em></p&gt;}, number={4}, journal={Energy Technologies & Resource Saving}, author={Sigal, I.Ya. and Smikhula, A.V. and Sigal, O.I. and Marasin, O.V.}, year={2020}, month={Dec.}, pages={29-38} }