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Combustion of RRBF in a bubbling fluidized bed

 
: Schulzke, Tim; Westermeyer, Jan; Hornsby, Catherine

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Fulltext urn:nbn:de:0011-n-4358772 (1.0 MByte PDF)
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Created on: 1.9.2017

presentation urn:nbn:de:0011-n-435877-18 (2.7 MByte PDF)
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Created on: 1.9.2017


Nzihou, A. ; École Nationale Supérieure des Mines d'Albi-Carmaux:
WasteEng 2016, 6th International Conference on Engineering for Waste and Biomass Valorisation. Proceedings : May 23-26, 2016, Albi (France); USB
Albi: Mines Albi, 2016
ISBN: 979-10-91526-05-0
Paper 40, 14 pp.
International Conference on Engineering for Waste and Biomass Valorisation (WasteEng) <6, 2016, Albi>
English
Conference Paper, Electronic Publication
Fraunhofer UMSICHT Oberhausen ()
fluidized bed; solid fuel; waste recovery; ash characterization

Abstract
Within the framework of EU-Life+ research project MARSS (Material Advanced Recovery Sustainable Systems) the outlet stream of a mechanical-biological treatment plant for the processing of mixed municipal solid waste is further processed to produce RRBF (Refined Renewable Biomass Fuel). The material is dry and has (very) small particle sizes below 40 mm, which makes it impossible to be burnt in standard grate firing systems. The main purpose was to examine whether RRBF is a suitable fuel for bubbling fluidized bed combustion for the decentralised production of combined heat and power. RRBF was fed into a bubbling fluidized bed combustion plant with a nominal fuel input of 100 kW in 3 combustion test runs. Proximate and ultimate analyses were performed for original RRBF and fly ash. The fuel analysis showed high ash contents between 25 and 37 weight-%, while the lower heating value lay in the range of 10.5 – 12.9 MJ/kg. The ash softening temperature was above 1.150 °C and therefore no bed agglomeration was observed. Combustion at around 900 °C could be maintained even without preheating of the combustion air. The carbon content of the fly ash was below 1 %, which indicates complete combustion in the bubbling fluidized bed with sufficient residence time. The content of phosphorous in the fly ash was above 1 % and therefore this is an interesting material for prospective phosphorous recovery, potentially together with sewage sludge or ash from sewage sludge combustion. RRBF is a suitable solid fuel for fluidized bed combustion.

: http://publica.fraunhofer.de/documents/N-435877.html