Enhancing the Energy Efficiency of Wastewater Treatment Plants through Co-digestion and Fuel Cell Systems

The present work provides an overview of technological measures to increase the self-sufficiency of wastewater treatment plants (WWTPs), in particular for the largely diffused activated sludge-based WWTP. The operation of WWTPs requires a large amount of electricity. Thermal energy is also required...

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Bibliographic Details
Published in:Frontiers in environmental science 2017-10, Vol.5
Main Authors: Gandiglio, Marta, Lanzini, Andrea, Soto, Alicia, Leone, Pierluigi, Santarelli, Massimo
Format: Article
Language:English
Subjects:
Activated sludge
Alternative energy sources
Biogas
Case reports
Case studies
Climate change
Co-digestion
Cogeneration
Digesters
Digestion
Electricity
Energy consumption
Energy conversion efficiency
Energy efficiency
Energy management
Energy research
Energy self-sufficiency
Environmental science
Fuel cells
Fuel technology
Heating
High temperature
Load
Municipal solid waste
Municipal waste management
Optimization
Organic matter
Power management
R&D
Research & development
Sedimentation & deposition
Self sufficiency
Sewage
Sewage biogas
Sewage sludge
Sludge
Sludge digestion
SOFC
Solid oxide fuel cells
Solid waste management
Solid wastes
Substrates
Thermal energy
Waste treatment
Waste water treatment plants
Wastewater treatment
Wastewater treatment plants
Water treatment
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Summary:The present work provides an overview of technological measures to increase the self-sufficiency of wastewater treatment plants (WWTPs), in particular for the largely diffused activated sludge-based WWTP. The operation of WWTPs requires a large amount of electricity. Thermal energy is also required for heating the sludge and sometimes exsiccation of the digested sludge. On the other hand, the entering organic matter contained in the wastewater is a source of energy. Organic matter is recovered as sludge, which is digested in large stirred tanks (anaerobic digester) to produce biogas. The onsite availability of biogas represents a great opportunity to cover a significant share of WWTP electricity and thermal demands. Especially, biogas can be efficiently converted into electricity (and heat) via high temperature fuel cell generators. The final part of this work will report a case study based on the use of sewage biogas into a solid oxide fuel cell. However, the efficient biogas conversion in combined heat and power (CHP) devices is not sufficient. Self-sufficiency requires a combination of efficient biogas conversion, the maximization the yield of biogas from the organic substrate, and the minimization of the thermal duty connected to the preheating of the sludge feeding the anaerobic digester (generally achieved with pre-thickeners). Finally, the co-digestion of the organic fraction of municipal solid waste (OFMSW) into digesters treating sludge from WWTPs represent an additional opportunity for increasing the biogas production of existing WWTPs, thus helping the transition toward self-sufficient plants.
ISSN:2296-665X
2296-665X
DOI:10.3389/fenvs.2017.00070