Heat Flux Predictions for a 3-D Compost Model
A 3-D model for compost was constructed taking as geometry basis a truncated cone, with dimensions of 4 m radius and 3 m height; in this structure an energy balance is applied for a two phase system (solid-air). Compost energy processes are modeled using COMSOL with a modified heat transfer equation which includes: volumetric heat capacity, chemical oxidation and biological growing and inhibition. A sensitivity parameter analysis was run in order to get temperature predictions closer to the ones observed in organic residues composting processes, in which it is required 40-90 days in order to get temperatures in the range of 313 -343 K. Obtained predictions have shown that the composting process exhibits higher sensitivity to parameters as: compost material oxidation activation energy, biomass activity activation energy.
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