Yu MH, Li YF, Sun JH, Hasegawa K (2004) Evaluation on thermal explosion induced by slightly exothermic interface reaction. Journal of Hazardous Materials 113(1-3), 165-174. [In English]
Web link: http://dx.doi.org/10.1016/j.jhazmat.2004.06.013
Keywords:
thermal hazard; asphalt-salt mixture; interface reaction; thermal; analysis; numerical simulation;
Abstract: An asphalt-salt mixture (ASM), which once caused a fire and explosion in a reprocessing plant, was prepared by imitating the real bituminization process of waste on a lab scale to evaluate its actual thermal hazards. Heat flux reaction calorimeters were used to measure the release of heat for the simulated ASM at a constant heating rate and at a constant temperature, respectively. Experimental results show that the reaction in the ASM below about 250degreesC is a slightly exothermic interface reaction between the asphalt and the salt particles contained in the asphalt. and that the heat release rate increases sharply above about 250degreesC due to melting of the salt particles. The reaction rates were formulated on the basis of an assumed reaction model, and the kinetic parameters were determined. Using the model with the kinetic parameters, temperature changes with time and drum-radius axes for the ASM-filled drum were numerically simulated assuming a one-dimensional infinite cylinder system, where the drum was being cooled at an ambient temperature of 50degreesC. The minimum filling temperature, at which the runaway reaction (MFTRR) can occur for the simulated ASM in the drum is about 194degreesC. Furthermore, a very good linear correlation exists between this MFTRR and the initial radius of salt particles formed in the bituminization product. The critical filling temperature to the runaway reaction is about 162degreesC for the asphalt-salt mixture, containing zero-size salt particles, filled in the same drum at an ambient temperature of 50degreesC. Thus, the runaway reaction will never occur in the drum filled with the asphalt-salt mixture under the conditions of the filling temperature below 162degreesC and a constant ambient temperature of 50degreesC. As a consequence, the ASM explosion occurred in the reprocessing plant likely was due to a slightly exothermically reaction and self heating. (C) 2004 Elsevier B.V. All rights reserved.