A new process concept for highly efficient conversion of sewage sludge by combined fermentation and gasification and power generation in a hybrid system consisting of a SOFC and a gas turbine

•A process concept for highly efficient conversion of sewage sludge is presented.•Fermentation waste is dried and converted in a gasifier with wood.•Synergetic effects are used by converting biogas and gasification gas in SOFC.•A hybrid system (SOFC+gas turbine) raises the el. efficiency from 34% to...

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Bibliographic Details
Published in:Energy conversion and management 2015-07, Vol.98, p.259-267
Main Authors: Speidel, M., Kraaij, G., Wörner, A.
Format: Article
Language:English
Subjects:
Biogas
Biomass
Gas turbine
Gasification
Sewage sludge
SOFC
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Summary:•A process concept for highly efficient conversion of sewage sludge is presented.•Fermentation waste is dried and converted in a gasifier with wood.•Synergetic effects are used by converting biogas and gasification gas in SOFC.•A hybrid system (SOFC+gas turbine) raises the el. efficiency from 34% to 53%.•Waste heat of the overall process can be used to dry the fermentation waste. Sewage sludge can be disposed of by fermentation, incineration or gasification. Conversion of the resulting biogas, combustion heat or gasification gas into electricity is often employed. Since sewage sludge cannot be fermented completely and due to the significant heat requirements for drying it in the incineration plant or before the gasifier, the electrical output in all cases is very low. Consequently, this work seeks to investigate a combination of fermentation and gasification in which dried fermentation waste is converted in a gasifier. With the aim of combining these two biomass conversion processes with power generation in an efficient manner, a hybrid system consisting of a SOFC and a gas turbine is investigated. This combination of a biogas plant and a gasifier has the advantage that waste heat can be used as a heat source in drying the fermentation waste. Another advantage is the combined conversion of biogas and gasification gas in the SOFC. As steam from gasification gas is used for internal reforming of methane out of biogas at the anode of the SOFC, the complexity of the plant is reduced and the efficiency is increased. A configuration including a pressurized gasification process was identified as most efficient in terms of electrical output.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2015.03.101