Experimental study of thermophysical properties of coal gangue at initial stage of spontaneous combustion.

The specific heat capacity (C), thermal conductivity (λ), and thermal diffusion coefficient (D) of coal gangue (CG) are the main factors that affect the self-ignition potential for heat transferring from burning center to the ground surface. In this paper, the thermophysical properties of CG were investigated by transient plane source method. The correlations and sensitivity analysis were performed to characterize the degree of influence of the thermophysical parameters (C, λ, and D) dependence on temperature.

Experimental research on explosion suppression affected by ultrafine water mist containing different additives.

The suppression effects of pure ultrafine water mist and 5% mass fraction alkali metal (NaCl, NaCO, KHCO, KCl and KCO) solutions ultrafine water mist on methane explosion were conducted under five mist concentrations in a sealed visual vessel. Mist diameters of different additive solutions were measured by a phase doppler particle analyzer. Pressure data and dynamic flame pictures were recorded respectively by a high-frequency pressure sensor and a high-speed camera.

Effect of fire engulfment on thermal response of LPG tanks.

A model has been developed to predict the thermal response of liquefied-pressure gases (LPG) tanks under fire, and three-dimensional numerical simulations were carried out on a horizontal LPG tank which was 60% filled. Comparison between numerical predictions and published experimental data shows close agreement. The attention is focused on the influence of different fire conditions (different fire scenarios, various engulfing degrees and flame temperatures) on thermal response of LPG tanks.