Original paper

Mineralogical problems in advanced power systems: The contribution of slag and gaseous chemical species to the fly ash

Enders, Michael; Spiegel, Michael; Albrecht, Johannes; Putnis, Andrew

European Journal of Mineralogy Volume 12 Number 3 (2000), p. 639 - 650

33 references

published: May 31, 2000
manuscript accepted: Dec 22, 1999
manuscript received: Jun 21, 1999

DOI: 10.1127/0935-1221/2000/0012-0639

BibTeX file

ArtNo. ESP147051203010, Price: 29.00 €

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Abstract Economical and ecological targets force the development of modem coal combustion systems to reduce consumption of fuel and emissions. These aims can be achieved in advanced power systems by combining gas turbine processes and conventional steam processes. However, the impure flue gas of coal requires an extensive purification of hot flue gases ahead of the gas turbine. This study focuses on a mineralogical and chemical characterization of the particulate matter collected from flue gases of a pilot plant for pressurized pulverized coal combustion (PPCC) under slagging conditions. The material collected 011 temperature resistant filter materials was analyzed by X-ray-diffraction. WDS-electron microprobe, electron microscopy and thermoanalysis. The particles in the flue gas are in the micrometer and submicrometer range. The most important crystalline species are CaSO4. K2Ca2(SO4)3 and K3Na(SO4)2. Minor components of the flue gas stream are spinels (FeAl2O4. Fe3O4, FeCr2O4) and (Fe,Cr)2O3. The only silicate phase are siliceous glassy spheres which originate from solidified slag droplets. Half of the collected fly ashes was generated during complex reactions from the gaseous phase to crystalline and noncrystalline solids. The rest of the fly ash can be attributed to incompletely separated slag particles.


advanced power systemsalkali sulfatescondensationcoal combustionfly ash