Explosion behavior predictions of syngas/air mixtures with dilutions at elevated pressures: Explosion and intrinsic flame instability parameters (PDF)
Release Time:2025-04-30
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- Date:
- 2025-04-30
- Title of Paper:
- Explosion behavior predictions of syngas/air mixtures with dilutions at elevated pressures: Explosion and intrinsic flame instability parameters (PDF)
- Journal:
- Fuel
- Summary:
- Explosion processes of H2/CO/air mixtures with diluents are experimentally investigated with a confined vessel. Explosion pressure and maximum rate of pressure rise are obtained and results show that explosion pressure increases firstly and then decreases with increasing equivalence ratios. The maximum rate of pressure rise increases all the time when the combustible mixture becomes richer. When CO2 and H2O are added into the mixture, both explosion pressure and maximum rate of pressure rise decrease and CO2 addition has a stronger effect. Except for the explosion parameters, intrinsic flame instability parameters are also needed in order to evaluate the deflagration index of full-scale cases at higher pressure from lab-scale experiment. When CO2 and H2O are added into the mixture, both Markstein length and critical Peclet number decrease and the effect of CO2 is stronger. For critical radius, it is always decreasing with the addition of diluents but H2O addition may lead to the postponing of the onset of self-acceleration when CO/H2 ratio is higher. Linear instability theory could predict the critical radius quantitatively, but it is not accurate enough. The acceleration exponent increases firstly after the flame radius is larger than a critical value and then reaches a constant value of around 1.18, which is quite different from theoretical one, 1.5. In addition, the average cell sizes are obtained by theoretical calculation and results show CO2 and H2O have the similar effect on the cellular structure and intrinsic flame instability of syngas
- Co-author:
- Xie YL, Wang XJ, Wang JH, Huang ZH
- Volume:
- 2019, 255, 115724
- Page Number:
- 115724
- Translation or Not:
- No
- Date of Publication:
- 2019-11-01