Skip to main content Link Menu Expand (external link) Document Search Copy Copied

Validation of lpb_CH4_3_1

Thermodynamic conditions

  • Temperature, $T$: 363.5 K
  • Pressure, $p$ : 0.03 atm
  • Equivalence Ratio, $\phi$: 0.82
  • Mixture Composition, $X$: 11.30% CH4-27.70% O2-61.00% N2

Experimental measurement

  • Source: experimental data from DSJ1998
  • Data type: Low pressure burner speciation measurement
  • Experimental method: max HCO
  • Experimental value: 28000 molecule/mm$^3$
  • Experimental uncertainty: $ \times / \div$ 1.5

Model predictions

  • Trial model prediction: 15287 molecule/mm$^3$
  • Trial model uncertainty: $ \times / \div$ 1.13
  • Optimized model prediction: 15603 molecule/mm$^3$
  • Optimized model uncertainty: $ \times / \div$ 1.11

    FFCM-2 performance

    Sensitivity and impact factor

    Reference

    DSJ1998 - Diau, E. W. G., Smith, G. P., Jeffries, J. B. & Crosley, D. R. (1998). HCO concentration in flames via quantitative laser-induced fluorescence. Symposium (International) on Combustion, 27, 453–460.

    Back to top

    Copyright © 2023 Stanford Foundational Fuel Chemistry Model Initiative