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Evaluating olive tree prunnings as a secondary fuel fluidized bed combustion - emissions and ash effects

Vamvouka Despoina, Sfakiotakis Stylianos, Alevizos Georgios, Galetakis Michalis

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URI: http://purl.tuc.gr/dl/dias/456DA63F-22D7-4D81-96F7-9D01CBA4BB66
Year 2011
Type of Item Conference Full Paper
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Bibliographic Citation D. Vamvouka, S. I. Sfakiotakis, G. Alevizos and M. Galetakis, "Evaluating olive tree prunnings as a secondary fuel fluidized bed combustion - emissions and ash effects", in International Nordic Bioenergy Conference, January 2011.
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Summary

Olive tree prunnings, one lignite and their blend were burned in a lab-scale fluidized bed facility, at different air/feed ratios. Emissions of CO, SO 2 and NO x were measured and combustion efficiency was determined. Fly ashes and bed material were characterized in terms of mineralogical, chemical and morphological analyses and the slagging/fouling and agglomeration propensities were obtained. Control methodologies for mitigating ash problems were applied, using innovative mineral additives during combustion. The results indicated that when co-combusting lignite and olive tree prunnings SO 2 and NO x emissions were reduced, as compared to combustion of lignite. Combustion of each fuel alone could provoke medium or high deposition problems. However, blending of the fuels resulted in lower deposition and corrosion problems in boilers firing this mixture. The use of fuel additives decreased the concentration of alkali in the fly ash and enriched bottom ash in calcium compounds.

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