Abstract
In our lab, we have been studying the emissions of different pollutants during pyrolysis and combustion of wastes under different conditions for the last three decades. These studies have focused on the effect of temperature and presence of oxygen on the production of different pollutants. Waste decomposition has been studied in a horizontal laboratory scale reactor, but no estimate has been made of the actual emissions in a conventional thermal decomposition system. In the present study, emissions during these wastes’ thermal decomposition were estimated using Aspen HYSYS. In the simulation software, the waste composition (elemental analysis) was given as an input parameter, as well as the gas flow rate used as atmosphere during the decomposition. The emitted hydrocarbons measured in the laboratory were equated to the emission of a single compound (propylene). The simulation permitted calculating the percentage of oxygen in the emitted gas, and the pollutant emissions were then recalculated under standard conditions. The emission of dioxins and furans were estimated under different conditions of decomposition, and an adequate approximation of the waste decomposition in actual incineration systems could be obtained.
Highlights
Thermal decomposition of wastes is considered as a valid technique to recover chemicals and/or energy contained in wastes
We examined the evolution of the H/C ratio under different conditions to look for non-anticipated results
Black et al.[3] evaluated the effect of experimental methods on the emission factors for dioxins and furans emissions, concluding that field sampling and laboratory simulations were in good agreement, they did not implement mathematical simulation
Summary
Thermal decomposition of wastes is considered as a valid technique to recover chemicals and/or energy contained in wastes. Emissions of different wastes during thermal decomposition were simulated using Aspen HYSYS. Emissions of PCDD/Fs were estimated under different decomposition conditions.
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