Effect of inclination angle on the pulsation frequency of syngas jet fire

Ziming Lin, Kun Zhao, Situo Li, Jianan Qian, Hua Wang, Zhenhua Tang, Tong Cui, Zhirong Wang

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

The pulsation frequency of inclined jet fire was systematically studied in this study. Experiments of syngas jet fire with a nozzle diameter of 15 mm at different fuel flow rates (2.5 L/min∼20 L/min) and inclination angles (0°∼90°) were conducted. The pulsation frequency of inclined jet flame is quantified by applying FFT to the time variations of image correlation coefficient, flame height and flame width, corresponding to the global, vertical and spatial pulsation frequencies, respectively. Experimental results indicate that the vertical pulsation frequency can be derived only for jet flames with significant clip-off. The effect of inclination angle on the pulsation frequency depends on the fuel flow rate. For Qf≤7.5L/min, the natural frequency is dominant and increases slightly at small inclination angles. For larger fuel flow rates, a transition from subharmonic frequency to natural frequency occurs at a critical inclination angle θcri, which is sensitive to fuel flow rate. The pulsation behaviors of inclined jet flame are driven by three different instability modes, R-T instability at small fuel flow rates, and Extended R-T and K-H instabilities at larger fuel flow rates. The increase of global pulsation frequency with an increasing inclination angle for Qf≥10L/min results from the increased natural frequency at the nozzle exit. By defining a characteristic diameter D, a dimensionless model is developed to predict the global pulsation frequency of inclined jet fires with large fuel flow rates, St=0.284(1/Fr)0.473 for natural frequency and St=0.516(1/Fr)0.473 for subharmonic frequency.

Original languageEnglish
Pages (from-to)3690-3701
Number of pages12
JournalInternational Journal of Hydrogen Energy
Volume48
Issue number9
DOIs
StatePublished - 29 Jan 2023

Keywords

  • Global pulsation frequency
  • Kelvin-Helmholtz instability
  • Rayleigh-Taylor instability
  • Spatial pulsation frequency
  • Syngas jet fire

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