Experimental Investigation and Modeling of a Wet Flue Gas Desulfurization Pilot Plant

Experimental Investigation and Modeling of a Wet Flue Gas Desulfurization Pilot Plant

A detailed model for a wet flue gas desulfurization (FGD) pilot plant, based on the packed tower concept, has been developed. All important rate-determining steps, absorption of SO2, oxidation of HSO3 -, dissolution of limestone, and crystallization of gypsum were included. Population balance equati...

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Veröffentlicht in:Industrial & engineering chemistry research 1998-07, Vol.37 (7), p.2792-2806
Hauptverfasser: Kiil, Søren, Michelsen, Michael L, Dam-Johansen, Kim
Format: Artikel
Sprache:eng
Schlagworte:
01 COAL, LIGNITE, AND PEAT
20 FOSSIL-FUELED POWER PLANTS
Absorption, stripping
Air pollution caused by fuel industries
AIR POLLUTION CONTROL
Applied sciences
Atmospheric pollution
Chemical engineering
CHEMICAL REACTION KINETICS
Combustion and energy production
DESULFURIZATION
Energy
Energy. Thermal use of fuels
Exact sciences and technology
FLUE GAS
FOSSIL-FUEL POWER PLANTS
MATHEMATICAL MODELS
Pollution
Pollution reduction
Prevention and purification methods
Stack gas and industrial effluent processing
SULFUR DIOXIDE
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Zusammenfassung:A detailed model for a wet flue gas desulfurization (FGD) pilot plant, based on the packed tower concept, has been developed. All important rate-determining steps, absorption of SO2, oxidation of HSO3 -, dissolution of limestone, and crystallization of gypsum were included. Population balance equations, governing the description of particle size distributions of limestone in the plant, were derived. Model predictions were compared to experimental data such as gas-phase concentration profiles of SO2, slurry pH profiles, solids content of the slurry, liquid-phase concentrations, and residual limestone in the gypsum. Simulations were found to match experimental data for the two limestone types investigated. A parameter study of the model was conducted with the purpose of validating assumptions and extracting information on wet FGD systems. The modeling tools developed may be applicable to other wet FGD plants.
ISSN:0888-5885
1520-5045
DOI:10.1021/ie9709446