Construction of Biodigesters to Optimize the Production of Biogas from Anaerobic Co-Digestion of Food Waste and Sewage

The objective of this study was to build and develop anaerobic biodigesters for optimization of biogas production using food waste (FW) and sewage (S) co-digestion from a wastewater treatment plant (WWTP). The biodigesters operated with different mixtures and in mesophilic phase (37 °C). During the 60 days of experiments, all control and monitoring parameters of the biodigesters necessary for biogas production were tested and evaluated. The biodigester containing FW, S and anaerobic sludge presented the biggest reduction of organic matter, expressed with removal of 88.3% TVS (total volatile solid) and 84.7% COD (chemical oxygen demand) the biggest biogas production (63 L) and the highest methane percentage (95%). Specific methane production was 0.299 LCH4/gVS and removed. The use of biodigesters to produce biogas through anaerobic digestion may play an important role in local economies due to the opportunity to produce a renewable fuel from organic waste and also as an alternative to waste treatment. Finally, the embedded control and automation system was simple, effective, and robust, and the supervisory software was efficient in all aspects defined at its conception.

[1]  Tim Patterson,et al.  Life cycle assessment of biogas infrastructure options on a regional scale. , 2011, Bioresource technology.

[2]  Maurizio Carlini,et al.  An Economical Evaluation of Anaerobic Digestion Plants Fed with Organic Agro-Industrial Waste , 2017 .

[3]  Alastair J Ward,et al.  Optimisation of the anaerobic digestion of agricultural resources. , 2008, Bioresource technology.

[4]  A. Jha,et al.  Comparison between Wet and Dry Anaerobic Digestions of Cow Dung under Mesophilic and Thermophilic Conditions , 2013 .

[5]  C. Chernicharo Princípios do tratamento biológico de águas residuárias: reatores anaeróbios , 2007 .

[6]  M. Pérez,et al.  Kinetics of mesophilic anaerobic digestion of the organic fraction of municipal solid waste: Influence of initial total solid concentration. , 2010, Bioresource technology.

[7]  Paolo Pavan,et al.  Anaerobic Digestion of Municipal Solid Waste: Thermophilic vs. Mesophilic Performance At High Solids , 1991 .

[8]  Dong-Hoon Kim,et al.  Continuous high-solids anaerobic co-digestion of organic solid wastes under mesophilic conditions. , 2011, Waste management.

[9]  G. Venkatesh,et al.  Economic–environmental analysis of handling biogas from sewage sludge digesters in WWTPs (wastewater treatment plants) for energy recovery: Case study of Bekkelaget WWTP in Oslo (Norway) , 2013 .

[10]  D Bolzonella,et al.  Anaerobic digestion of organic solid wastes: process behaviour in transient conditions. , 2003, Water science and technology : a journal of the International Association on Water Pollution Research.

[11]  Hang-sik Shin,et al.  The optimisation of food waste addition as a co-substrate in anaerobic digestion of sewage sludge , 2003, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[12]  Yebo Li,et al.  Solid-state anaerobic digestion for methane production from organic waste , 2011 .

[13]  Jakob Rosenqvist,et al.  Methodology for Analysing Energy Demand in Biogas Production Plants : A Comparative Study of Two Biogas Plants , 2017 .

[14]  J. Baeyens,et al.  Principles and potential of the anaerobic digestion of waste-activated sludge , 2008 .

[15]  Joan Mata-Álvarez,et al.  Anaerobic digestion of organic solid wastes. An overview of research achievements and perspectives , 2000 .

[16]  Jay F. Martin,et al.  Waste treatment and biogas quality in small-scale agricultural digesters. , 2008, Bioresource technology.

[17]  Wojciech M. Budzianowski,et al.  Economic analysis of biomethane and bioelectricity generation from biogas using different support schemes and plant configurations. , 2015 .

[18]  W Charles,et al.  Effect of pre-aeration and inoculum on the start-up of batch thermophilic anaerobic digestion of municipal solid waste. , 2009, Bioresource technology.