The article presents the results of the experimental studies of heat transfer in a layer of moist wood biomass under conditions of its dehydration when heated in a high-temperature gas environment. The basic laws of the formation process of the temperature field of the biomass layer during its dehydration have been established. It is shown that essentially nonuniform temperature fields are formed in the wood biomass layer, the form of which is a consequence of the influence of a complex of heat and mass transfer processes occurring together under conditions of heat conduction, intense phase transformations (evaporation and condensation of water), and water vapor diffusion through the porous frame of the biomass layer. It has also been found that as a result of intense absorption of heat during evaporation of moisture and vapor filtration, local cooling of biomass occurs. A physical model of heat and mass transfer processes in the porous structure of moist wood biomass upon heating has been formulated, which differs from the well-known detailed descriptions of the processes of filtering water vapor into the area of the relatively low temperatures from the zone of intense evaporation, condensation and subsequent secondary evaporation.
- Dust-wood waste
- Heat and mass transfer
- Temperature regime
ASJC Scopus subject areas
- Renewable Energy, Sustainability and the Environment