J. L. Yang, S. P. Wang and H. X. Chen (2016) International Journal Of Heat And Mass Transfer 97 146-156. |
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Date: 2017-03-10
Author: SKLFS  , Source: SKLFS  ,
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J. L. Yang, S. P. Wang and H. X. Chen (2016) Effect of interface thermal resistance on ignition of reactive material by a hot particle. Journal/International Journal Of Heat And Mass Transfer 97 146-156. [In English] Web link: http://dx.doi.org/10.1016/j.ijheatmasstransfer.2016.01.070 Keywords: ,Reactive material, Hot particle, Ignition, Interface thermal resistance, Reactant consumption, BOUNDARY RESISTANCE, NUMERICAL-SIMULATION, CONDENSED SUBSTANCE, HIGH-TEMPERATURE, HEAT-TRANSFER, FUEL BEDS, EXOTHERMICITY, COMBUSTION, INITIATION, SOLIDS Abstract: An ignition model of reactive material (RM) by a hot particle, taking into account the interface thermal resistance (ITR) and reactant consumption is established. The heat transfer process between RM and the particle was described by a radiation boundary condition at the interface. Five regimes were identified from the ignition model through numerical simulations. The criticality of reaction heat on the ignition regime was determined by the sensitivity analysis technique. It was found that a larger ITR would result in a longer ignition delay time, a smaller burnout area and a higher critical reaction heat of RM, and a higher critical radius and initial temperature of the particle. The effects of particle size, initial particle temperature and particle shape on the ignition delay time were more significant at a larger ITR. This work shows that both ITR and reactant consumption have unusual and significant influences on the ignition process of RM by a hot particle, and may have an instructive significance for the hot-spot ignition theory and RM management. (C) 2016 Elsevier Ltd. All rights reserved.
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