Experimental study on combustion characteristics of blended fuel pool fires

Abstract: Liquid–vapor phase equilibrium theories are used to analyze boiling processes of blended fuel pool fires, and the results show that there are two boiling mechanisms (azeotropism and non-azeotropism) for blended fuels compared with single-component fuels. A series of pool fire experiments were conducted to investigate the combustion characteristics of blended fuel pool fires. The experimental results showed that the two boiling mechanisms have different effects on the burning process of the fuel blends. The boi… Show more

“…Various grid quantities are chosen to simulate the temperature value at a height of 0.3m for grid independence analysis, as shown in Figure 3-4. Comparison with actual experimental data under similar conditions [6] It can be observed that with an increasing number of grids, the simulated temperature values stabilize. The simulated data closely matches the experimental data when the grid quantity reaches 108000.…”

Numerical simulation of forced ventilation fire suppression for wing leading edge pool fires

“…Various grid quantities are chosen to simulate the temperature value at a height of 0.3m for grid independence analysis, as shown in Figure 3-4. Comparison with actual experimental data under similar conditions [6] It can be observed that with an increasing number of grids, the simulated temperature values stabilize. The simulated data closely matches the experimental data when the grid quantity reaches 108000.…”

Numerical simulation of forced ventilation fire suppression for wing leading edge pool fires

Experimental study on combustion and yield characteristics of dimethyl carbonate/n-heptane blends in the cone calorimeter

Correlation analysis between environmental pressure and vision-based flames from monitoring camera during depressurization process